// Copyright Joyent, Inc. and other Node contributors.
//
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// copy of this software and associated documentation files (the
// "Software"), to deal in the Software without restriction, including
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// persons to whom the Software is furnished to do so, subject to the
// following conditions:
//
// The above copyright notice and this permission notice shall be included
// in all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
// OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
// MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN
// NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM,
// DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR
// OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE
// USE OR OTHER DEALINGS IN THE SOFTWARE.

import assert from "assert";
import util, { inspect } from "util";
import vm from "vm";
import { MessageChannel } from "worker_threads";
import url from "url";
import { isWindows } from "harness";
const noop = () => {};
const mustCallChecks = [];

test("no assertion failures", () => {
  assert.strictEqual(util.inspect(1), "1");
  assert.strictEqual(util.inspect(false), "false");
  assert.strictEqual(util.inspect(""), "''");
  assert.strictEqual(util.inspect("hello"), "'hello'");
  assert.strictEqual(
    util.inspect(function abc() {}),
    "[Function: abc]",
  );
  assert.strictEqual(
    util.inspect(() => {}),
    "[Function (anonymous)]",
  );
  assert.strictEqual(
    util.inspect(async function () {}),
    "[AsyncFunction (anonymous)]",
  );
  assert.strictEqual(
    util.inspect(async () => {}),
    "[AsyncFunction (anonymous)]",
  );

  // Special function inspection.
  {
    const fn = (() => function* () {})();
    assert.strictEqual(util.inspect(fn), "[GeneratorFunction (anonymous)]");
    assert.strictEqual(
      util.inspect(async function* abc() {}),
      "[AsyncGeneratorFunction: abc]",
    );
    Object.setPrototypeOf(
      fn,
      Object.getPrototypeOf(async () => {}),
    );
    //! Note:
    // The following tests are relying on the JS-based is(Async|Generator)Function polyfills,
    // when switching them out back for the native implementation make sure they are fixed!
    // Due to the bug with the native impl. being flaky make sure its tested multiple times.
    assert.strictEqual(util.inspect(fn), "[GeneratorFunction (anonymous)] AsyncFunction");
    Object.defineProperty(fn, "name", { value: 5, configurable: true });
    assert.strictEqual(util.inspect(fn), "[GeneratorFunction: 5] AsyncFunction");
    Object.defineProperty(fn, Symbol.toStringTag, {
      value: "Foobar",
      configurable: true,
    });
    assert.strictEqual(util.inspect({ ["5"]: fn }), "{ '5': [GeneratorFunction: 5] AsyncFunction [Foobar] }");
    Object.defineProperty(fn, "name", { value: "5", configurable: true });
    Object.setPrototypeOf(fn, null);
    assert.strictEqual(util.inspect(fn), "[GeneratorFunction (null prototype): 5] [Foobar]");
    assert.strictEqual(util.inspect({ ["5"]: fn }), "{ '5': [GeneratorFunction (null prototype): 5] [Foobar] }");
  }

  assert.strictEqual(util.inspect(undefined), "undefined");
  assert.strictEqual(util.inspect(null), "null");
  assert.strictEqual(util.inspect(/foo(bar\n)?/gi), "/foo(bar\\n)?/gi");
  assert.strictEqual(
    util.inspect(new Date("Sun, 14 Feb 2010 11:48:40 GMT")),
    new Date("2010-02-14T12:48:40+01:00").toISOString(),
  );
  assert.strictEqual(util.inspect(new Date("")), new Date("").toString());
  assert.strictEqual(util.inspect("\n\x01"), "'\\n\\x01'");
  assert.strictEqual(
    util.inspect(`${Array(75).fill(1)}'\n\x1d\n\x03\x85\x7f\x7e\x9f\xa0`),
    `"${Array(75).fill(1)}'\\n" +\n  '\\x1D\\n' +\n  '\\x03\\x85\\x7F~\\x9F '`,
  );
  assert.strictEqual(util.inspect([]), "[]");
  assert.strictEqual(util.inspect({ __proto__: [] }), "Array {}");
  assert.strictEqual(util.inspect([1, 2]), "[ 1, 2 ]");
  assert.strictEqual(util.inspect([1, [2, 3]]), "[ 1, [ 2, 3 ] ]");
  assert.strictEqual(util.inspect({}), "{}");
  assert.strictEqual(util.inspect({ a: 1 }), "{ a: 1 }");
  assert.strictEqual(util.inspect({ a: function () {} }), "{ a: [Function: a] }");
  assert.strictEqual(util.inspect({ a: () => {} }), "{ a: [Function: a] }");

  assert.strictEqual(util.inspect({ a: async function abc() {} }), "{ a: [AsyncFunction: abc] }");
  assert.strictEqual(util.inspect({ a: async () => {} }), "{ a: [AsyncFunction: a] }");
  assert.strictEqual(util.inspect({ a: function* () {} }), "{ a: [GeneratorFunction: a] }");
  assert.strictEqual(util.inspect({ a: 1, b: 2 }), "{ a: 1, b: 2 }");
  assert.strictEqual(util.inspect({ "a": {} }), "{ a: {} }");
  assert.strictEqual(util.inspect({ "a": { "b": 2 } }), "{ a: { b: 2 } }");
  assert.strictEqual(util.inspect({ "a": { "b": { "c": { "d": 2 } } } }), "{ a: { b: { c: [Object] } } }");
  assert.strictEqual(
    util.inspect({ "a": { "b": { "c": { "d": 2 } } } }, false, null),
    "{\n  a: { b: { c: { d: 2 } } }\n}",
  );
  assert.strictEqual(util.inspect([1, 2, 3], true), "[ 1, 2, 3, [length]: 3 ]");
  assert.strictEqual(util.inspect({ "a": { "b": { "c": 2 } } }, false, 0), "{ a: [Object] }");
  assert.strictEqual(util.inspect({ "a": { "b": { "c": 2 } } }, false, 1), "{ a: { b: [Object] } }");
  assert.strictEqual(util.inspect({ "a": { "b": ["c"] } }, false, 1), "{ a: { b: [Array] } }");
  assert.strictEqual(util.inspect(new Uint8Array(0)), "Uint8Array(0) []");
  assert(inspect(new Uint8Array(0), { showHidden: true }).includes("[buffer]"));
  assert.strictEqual(
    util.inspect(Object.create({}, { visible: { value: 1, enumerable: true }, hidden: { value: 2 } })),
    "{ visible: 1 }",
  );
  assert.strictEqual(
    util.inspect(Object.assign(new String("hello"), { [Symbol("foo")]: 123 }), { showHidden: true }),
    "[String: 'hello'] { [length]: 5, [Symbol(foo)]: 123 }",
  );

  {
    const regexp = /regexp/;
    regexp.aprop = 42;
    assert.strictEqual(util.inspect({ a: regexp }, false, 0), "{ a: /regexp/ }");
  }

  assert.match(util.inspect({ a: { a: { a: { a: {} } } } }, undefined, undefined, true), /Object/);
  assert.doesNotMatch(util.inspect({ a: { a: { a: { a: {} } } } }, undefined, null, true), /Object/);

  {
    const showHidden = true;
    const ab = new Uint8Array([1, 2, 3, 4]).buffer;
    const dv = new DataView(ab, 1, 2);
    assert.strictEqual(util.inspect(ab, showHidden), "ArrayBuffer { [Uint8Contents]: <01 02 03 04>, byteLength: 4 }");
    assert.strictEqual(
      util.inspect(new DataView(ab, 1, 2), showHidden),
      "DataView {\n" +
        "  byteLength: 2,\n" +
        "  byteOffset: 1,\n" +
        "  buffer: ArrayBuffer {" +
        " [Uint8Contents]: <01 02 03 04>, byteLength: 4 }\n}",
    );
    assert.strictEqual(util.inspect(ab, showHidden), "ArrayBuffer { [Uint8Contents]: <01 02 03 04>, byteLength: 4 }");
    assert.strictEqual(
      util.inspect(dv, showHidden),
      "DataView {\n" +
        "  byteLength: 2,\n" +
        "  byteOffset: 1,\n" +
        "  buffer: ArrayBuffer { [Uint8Contents]: " +
        "<01 02 03 04>, byteLength: 4 }\n}",
    );
    ab.x = 42;
    dv.y = 1337;
    assert.strictEqual(
      util.inspect(ab, showHidden),
      "ArrayBuffer { [Uint8Contents]: <01 02 03 04>, " + "byteLength: 4, x: 42 }",
    );
    assert.strictEqual(
      util.inspect(dv, showHidden),
      "DataView {\n" +
        "  byteLength: 2,\n" +
        "  byteOffset: 1,\n" +
        "  buffer: ArrayBuffer { [Uint8Contents]: <01 02 03 04>," +
        " byteLength: 4, x: 42 },\n" +
        "  y: 1337\n}",
    );
  }

  {
    const ab = new ArrayBuffer(42);
    assert.strictEqual(ab.byteLength, 42);
    new MessageChannel().port1.postMessage(ab, [ab]);
    assert.strictEqual(ab.byteLength, 0);
    assert.strictEqual(util.inspect(ab), "ArrayBuffer { (detached), byteLength: 0 }");
  }

  // Truncate output for ArrayBuffers using plural or singular bytes
  {
    const ab = new ArrayBuffer(3);
    assert.strictEqual(
      util.inspect(ab, { showHidden: true, maxArrayLength: 2 }),
      "ArrayBuffer { [Uint8Contents]" + ": <00 00 ... 1 more byte>, byteLength: 3 }",
    );
    assert.strictEqual(
      util.inspect(ab, { showHidden: true, maxArrayLength: 1 }),
      "ArrayBuffer { [Uint8Contents]" + ": <00 ... 2 more bytes>, byteLength: 3 }",
    );
  }
});

// Now do the same checks but from a different context.
test("inspect from a different context", () => {
  const showHidden = false;
  const ab = vm.runInNewContext("new ArrayBuffer(4)");
  const dv = vm.runInNewContext("new DataView(ab, 1, 2)", { ab });
  assert.strictEqual(util.inspect(ab, showHidden), "ArrayBuffer { [Uint8Contents]: <00 00 00 00>, byteLength: 4 }");
  assert.strictEqual(
    util.inspect(new DataView(ab, 1, 2), showHidden),
    "DataView {\n" +
      "  byteLength: 2,\n" +
      "  byteOffset: 1,\n" +
      "  buffer: ArrayBuffer { [Uint8Contents]: <00 00 00 00>, byteLength: 4 }\n}",
  );
  assert.strictEqual(util.inspect(ab, showHidden), "ArrayBuffer { [Uint8Contents]: <00 00 00 00>, byteLength: 4 }");
  //! segfaults
  /*assert.strictEqual(
    util.inspect(dv, showHidden),
    'DataView {\n' +
    '  byteLength: 2,\n' +
    '  byteOffset: 1,\n' +
    '  buffer: ArrayBuffer { [Uint8Contents]: <00 00 00 00>, byteLength: 4 }\n}'
  );*/
  ab.x = 42;
  dv.y = 1337;
  assert.strictEqual(
    util.inspect(ab, showHidden),
    "ArrayBuffer { [Uint8Contents]: <00 00 00 00>, byteLength: 4, x: 42 }",
  );
  //! segfaults
  /*assert.strictEqual(
    util.inspect(dv, showHidden),
    'DataView {\n' +
    '  byteLength: 2,\n' +
    '  byteOffset: 1,\n' +
    '  buffer: ArrayBuffer { [Uint8Contents]: <00 00 00 00>, byteLength: 4, x: 42 },\n' +
    '  y: 1337\n}'
  );*/
});

test("no assertion failures 2", () => {
  [
    Float32Array,
    Float64Array,
    Int16Array,
    Int32Array,
    Int8Array,
    Uint16Array,
    Uint32Array,
    Uint8Array,
    Uint8ClampedArray,
  ].forEach(constructor => {
    const length = 2;
    const byteLength = length * constructor.BYTES_PER_ELEMENT;
    const array = new constructor(new ArrayBuffer(byteLength), 0, length);
    array[0] = 65;
    array[1] = 97;
    assert.strictEqual(
      util.inspect(array, { showHidden: true }),
      `${constructor.name}(${length}) [\n` +
        "  65,\n" +
        "  97,\n" +
        `  [BYTES_PER_ELEMENT]: ${constructor.BYTES_PER_ELEMENT},\n` +
        `  [length]: ${length},\n` +
        `  [byteLength]: ${byteLength},\n` +
        "  [byteOffset]: 0,\n" +
        `  [buffer]: ArrayBuffer { byteLength: ${byteLength} }\n]`,
    );
    assert.strictEqual(util.inspect(array, false), `${constructor.name}(${length}) [ 65, 97 ]`);
  });

  // Now check that declaring a TypedArray in a different context works the same.
  [
    Float32Array,
    Float64Array,
    Int16Array,
    Int32Array,
    Int8Array,
    Uint16Array,
    Uint32Array,
    Uint8Array,
    Uint8ClampedArray,
  ].forEach(constructor => {
    const length = 2;
    const byteLength = length * constructor.BYTES_PER_ELEMENT;
    const array = vm.runInNewContext("new constructor(new ArrayBuffer(byteLength), 0, length)", {
      constructor,
      byteLength,
      length,
    });
    array[0] = 65;
    array[1] = 97;
    assert.strictEqual(
      util.inspect(array, true),
      `${constructor.name}(${length}) [\n` +
        "  65,\n" +
        "  97,\n" +
        `  [BYTES_PER_ELEMENT]: ${constructor.BYTES_PER_ELEMENT},\n` +
        `  [length]: ${length},\n` +
        `  [byteLength]: ${byteLength},\n` +
        "  [byteOffset]: 0,\n" +
        `  [buffer]: ArrayBuffer { byteLength: ${byteLength} }\n]`,
    );
    assert.strictEqual(util.inspect(array, false), `${constructor.name}(${length}) [ 65, 97 ]`);
  });

  {
    const brokenLength = new Float32Array(2);
    Object.defineProperty(brokenLength, "length", { value: -1 });
    assert.strictEqual(inspect(brokenLength), "Float32Array(2) [ 0n, 0n ]");
  }

  assert.strictEqual(
    util.inspect(
      Object.create(
        {},
        {
          visible: { value: 1, enumerable: true },
          hidden: { value: 2 },
        },
      ),
      { showHidden: true },
    ),
    "{ visible: 1, [hidden]: 2 }",
  );
  // Objects without prototype.
  assert.strictEqual(
    util.inspect(
      Object.create(null, {
        name: { value: "Tim", enumerable: true },
        hidden: { value: "secret" },
      }),
      { showHidden: true },
    ),
    "[Object: null prototype] { name: 'Tim', [hidden]: 'secret' }",
  );

  assert.strictEqual(
    util.inspect(
      Object.create(null, {
        name: { value: "Tim", enumerable: true },
        hidden: { value: "secret" },
      }),
    ),
    "[Object: null prototype] { name: 'Tim' }",
  );

  // Dynamic properties.
  {
    assert.strictEqual(
      util.inspect({
        get readonly() {
          return 1;
        },
      }),
      "{ readonly: [Getter] }",
    );

    assert.strictEqual(
      util.inspect({
        get readwrite() {
          return 1;
        },
        set readwrite(val) {},
      }),
      "{ readwrite: [Getter/Setter] }",
    );

    assert.strictEqual(util.inspect({ set writeonly(val) {} }), "{ writeonly: [Setter] }");

    const value = {};
    value.a = value;
    assert.strictEqual(util.inspect(value), "<ref *1> { a: [Circular *1] }");
    const getterFn = {
      get one() {
        return null;
      },
    };
    assert.strictEqual(util.inspect(getterFn, { getters: true }), "{ one: [Getter: null] }");
  }

  // Array with dynamic properties.
  {
    const value = [1, 2, 3];
    Object.defineProperty(value, "growingLength", {
      enumerable: true,
      get: function () {
        this.push(true);
        return this.length;
      },
    });
    Object.defineProperty(value, "-1", {
      enumerable: true,
      value: -1,
    });
    assert.strictEqual(util.inspect(value), "[ 1, 2, 3, growingLength: [Getter], '-1': -1 ]");
  }

  // Array with inherited number properties.
  {
    class CustomArray extends Array {}
    CustomArray.prototype[5] = "foo";
    CustomArray.prototype[49] = "bar";
    CustomArray.prototype.foo = true;
    const arr = new CustomArray(50);
    arr[49] = "I win";
    assert.strictEqual(util.inspect(arr), "CustomArray(50) [ <49 empty items>, 'I win' ]");
    assert.strictEqual(
      util.inspect(arr, { showHidden: true }),
      "CustomArray(50) [\n" +
        "  <49 empty items>,\n" +
        "  'I win',\n" +
        "  [length]: 50,\n" +
        "  '5': 'foo',\n" +
        "  foo: true\n" +
        "]",
    );
  }

  // Array with extra properties.
  {
    const arr = [1, 2, 3, ,];
    arr.foo = "bar";
    assert.strictEqual(util.inspect(arr), "[ 1, 2, 3, <1 empty item>, foo: 'bar' ]");

    const arr2 = [];
    assert.strictEqual(util.inspect([], { showHidden: true }), "[ [length]: 0 ]");
    arr2["00"] = 1;
    assert.strictEqual(util.inspect(arr2), "[ '00': 1 ]");
    assert.strictEqual(util.inspect(arr2, { showHidden: true }), "[ [length]: 0, '00': 1 ]");
    arr2[1] = 0;
    assert.strictEqual(util.inspect(arr2), "[ <1 empty item>, 0, '00': 1 ]");
    assert.strictEqual(util.inspect(arr2, { showHidden: true }), "[ <1 empty item>, 0, [length]: 2, '00': 1 ]");
    delete arr2[1];
    assert.strictEqual(util.inspect(arr2), "[ <2 empty items>, '00': 1 ]");
    assert.strictEqual(util.inspect(arr2, { showHidden: true }), "[ <2 empty items>, [length]: 2, '00': 1 ]");
    arr2["01"] = 2;
    assert.strictEqual(util.inspect(arr2), "[ <2 empty items>, '00': 1, '01': 2 ]");
    assert.strictEqual(util.inspect(arr2, { showHidden: true }), "[ <2 empty items>, [length]: 2, '00': 1, '01': 2 ]");
    delete arr2["00"];
    arr2[0] = 0;
    assert.strictEqual(util.inspect(arr2), "[ 0, <1 empty item>, '01': 2 ]");
    assert.strictEqual(util.inspect(arr2, { showHidden: true }), "[ 0, <1 empty item>, [length]: 2, '01': 2 ]");
    delete arr2["01"];
    arr2[2 ** 32 - 2] = "max";
    arr2[2 ** 32 - 1] = "too far";
    assert.strictEqual(util.inspect(arr2), "[ 0, <4294967293 empty items>, 'max', '4294967295': 'too far' ]");

    const arr3 = [];
    arr3[-1] = -1;
    assert.strictEqual(util.inspect(arr3), "[ '-1': -1 ]");
  }

  // Indices out of bounds.
  {
    const arr = [];
    arr[2 ** 32] = true; // Not a valid array index.
    assert.strictEqual(util.inspect(arr), "[ '4294967296': true ]");
    arr[0] = true;
    arr[10] = true;
    assert.strictEqual(util.inspect(arr), "[ true, <9 empty items>, true, '4294967296': true ]");
    arr[2 ** 32 - 2] = true;
    arr[2 ** 32 - 1] = true;
    arr[2 ** 32 + 1] = true;
    delete arr[0];
    delete arr[10];
    assert.strictEqual(
      util.inspect(arr),
      [
        "[",
        "<4294967294 empty items>,",
        "true,",
        "'4294967296': true,",
        "'4294967295': true,",
        "'4294967297': true\n]",
      ].join("\n  "),
    );
  }

  // Function with properties.
  {
    const value = () => {};
    value.aprop = 42;
    assert.strictEqual(util.inspect(value), "[Function: value] { aprop: 42 }");
  }

  // Anonymous function with properties.
  {
    const value = (() => function () {})();
    value.aprop = 42;
    assert.strictEqual(util.inspect(value), "[Function (anonymous)] { aprop: 42 }");
  }

  // Regular expressions with properties.
  {
    const value = /123/gi;
    value.aprop = 42;
    assert.strictEqual(util.inspect(value), "/123/gi { aprop: 42 }");
  }

  // Dates with properties.
  {
    const value = new Date("Sun, 14 Feb 2010 11:48:40 GMT");
    value.aprop = 42;
    assert.strictEqual(util.inspect(value), "2010-02-14T11:48:40.000Z { aprop: 42 }");
  }

  // Test the internal isDate implementation.
  {
    const Date2 = vm.runInNewContext("Date");
    const d = new Date2();
    const orig = util.inspect(d);
    Date2.prototype.foo = "bar";
    const after = util.inspect(d);
    assert.strictEqual(orig, after);
  }

  // Test positive/negative zero.
  assert.strictEqual(util.inspect(0), "0");
  assert.strictEqual(util.inspect(-0), "-0");
  // Edge case from check.
  assert.strictEqual(util.inspect(-5e-324), "-5e-324");

  // Test for sparse array.
  {
    const a = ["foo", "bar", "baz"];
    assert.strictEqual(util.inspect(a), "[ 'foo', 'bar', 'baz' ]");
    delete a[1];
    assert.strictEqual(util.inspect(a), "[ 'foo', <1 empty item>, 'baz' ]");
    assert.strictEqual(util.inspect(a, true), "[ 'foo', <1 empty item>, 'baz', [length]: 3 ]");
    assert.strictEqual(util.inspect(new Array(5)), "[ <5 empty items> ]");
    a[3] = "bar";
    a[100] = "qux";
    assert.strictEqual(
      util.inspect(a, { breakLength: Infinity }),
      "[ 'foo', <1 empty item>, 'baz', 'bar', <96 empty items>, 'qux' ]",
    );
    delete a[3];
    assert.strictEqual(
      util.inspect(a, { maxArrayLength: 4 }),
      "[ 'foo', <1 empty item>, 'baz', <97 empty items>, ... 1 more item ]",
    );
    // test 4 special case
    assert.strictEqual(
      util.inspect(a, {
        maxArrayLength: 2,
      }),
      "[ 'foo', <1 empty item>, ... 99 more items ]",
    );
  }

  // Test for other constructors in different context.
  {
    let obj = vm.runInNewContext("(function(){return {}})()", {});
    assert.strictEqual(util.inspect(obj), "{}");
    obj = vm.runInNewContext("const m=new Map();m.set(1,2);m", {});
    assert.strictEqual(util.inspect(obj), "Map(1) { 1 => 2 }");
    obj = vm.runInNewContext("const s=new Set();s.add(1);s.add(2);s", {});
    assert.strictEqual(util.inspect(obj), "Set(2) { 1, 2 }");
    obj = vm.runInNewContext("fn=function(){};new Promise(fn,fn)", {});
    assert.strictEqual(util.inspect(obj), "Promise { <pending> }");
  }

  // Test for property descriptors.
  {
    const getter = Object.create(null, {
      a: {
        get: function () {
          return "aaa";
        },
      },
    });
    const setter = Object.create(null, {
      b: {
        set: function () {},
      },
    });
    const getterAndSetter = Object.create(null, {
      c: {
        get: function () {
          return "ccc";
        },
        set: function () {},
      },
    });
    assert.strictEqual(util.inspect(getter, true), "[Object: null prototype] { [a]: [Getter] }");
    assert.strictEqual(util.inspect(setter, true), "[Object: null prototype] { [b]: [Setter] }");
    assert.strictEqual(util.inspect(getterAndSetter, true), "[Object: null prototype] { [c]: [Getter/Setter] }");
  }

  // Exceptions should print the error message, not '{}'.
  {
    [new Error(), new Error("FAIL"), new TypeError("FAIL"), new SyntaxError("FAIL")].forEach(err => {
      assert(
        //! temp bug workaround with replace()'s
        util.inspect(err).startsWith(err.stack.replace(/^Error: /, err.message ? "$&" : "Error")),
        `Expected "${util.inspect(err)}" to start with "${err.stack.replace(
          /^Error: /,
          err.message ? "$&" : "Error",
        )}"`,
      );
    });

    assert.throws(
      () => undef(),
      e => {
        assert(util.inspect(e).startsWith(e.stack), `Expected "${util.inspect(e)}" to start with "${e.stack}"`);
        return true;
      },
    );

    const ex = util.inspect(new Error("FAIL"), true);
    assert(ex.includes("Error: FAIL"));
    assert(ex.includes("[stack]"));
    assert(ex.includes("[message]"));
  }

  {
    const falsyCause1 = new Error("", { cause: false });
    delete falsyCause1.stack;
    const falsyCause2 = new Error(undefined, { cause: null });
    falsyCause2.stack = "";
    const undefinedCause = new Error("", { cause: undefined });
    undefinedCause.stack = "";

    assert.match(util.inspect(falsyCause1), /^\[Error\] \{ .*\[cause\]: false.* \}$/);
    assert.match(util.inspect(falsyCause2), /^\[Error\] \{ .*\[cause\]: null.* \}$/);
    assert.match(util.inspect(undefinedCause), /^\[Error\] \{ .*\[cause\]: undefined.* \}$/);
  }

  {
    const tmp = Error.stackTraceLimit;
    Error.stackTraceLimit = 0;
    const err = new Error("foo");
    const err2 = new Error("foo\nbar");
    assert.strictEqual(util.inspect(err, { compact: true }), "[Error: foo]");
    //assert(err.stack); //! skipped test, broken in bun
    delete err.stack;
    assert(!err.stack);
    assert.strictEqual(util.inspect(err, { compact: true }), "[Error: foo]");
    assert.strictEqual(util.inspect(err2, { compact: true }), "[Error: foo\nbar]");

    err.bar = true;
    err2.bar = true;

    assert.strictEqual(util.inspect(err, { compact: true }), "{ [Error: foo] bar: true }");
    assert.strictEqual(util.inspect(err2, { compact: true }), "{ [Error: foo\nbar]\n  bar: true }");
    assert.strictEqual(util.inspect(err, { compact: true, breakLength: 5 }), "{ [Error: foo]\n  bar: true }");
    assert.strictEqual(util.inspect(err, { compact: true, breakLength: 1 }), "{ [Error: foo]\n  bar:\n   true }");
    assert.strictEqual(util.inspect(err2, { compact: true, breakLength: 5 }), "{ [Error: foo\nbar]\n  bar: true }");
    assert.strictEqual(util.inspect(err, { compact: false }), "[Error: foo] {\n  bar: true\n}");
    assert.strictEqual(util.inspect(err2, { compact: false }), "[Error: foo\nbar] {\n  bar: true\n}");

    Error.stackTraceLimit = tmp;
  }

  // Prevent non-enumerable error properties from being printed.
  {
    // TODO(bun): Make originalLine and originalColumn non-enumerable
    let err = new Error();
    err.message = "foobar";
    let out = util
      .inspect(err)
      .replace(/\{\s*originalLine: .+\s*originalColumn: .+\s*\}/, "")
      .trim()
      .split("\n");
    assert.strictEqual(out[0], "Error: foobar");
    assert(out.at(-1).startsWith("    at "), 'Expected "' + out.at(-1) + '" to start with "    at "');
    // Reset the error, the stack is otherwise not recreated.
    err = new Error();
    err.message = "foobar";
    err.name = "Unique";
    Object.defineProperty(err, "stack", { value: err.stack, enumerable: true });
    out = util
      .inspect(err)
      .replace(/\{\s*originalLine: .+\s*originalColumn: .+\s*\}/, "")
      .trim()
      .split("\n");
    assert.strictEqual(out[0], "Unique: foobar");
    assert(out.at(-1).startsWith("    at "), 'Expected "' + out.at(-1) + '" to start with "    at "');
    err.name = "Baz";
    out = util
      .inspect(err)
      .replace(/\n\s*originalLine: .+\s*originalColumn: .+/, "")
      .trim()
      .split("\n");
    assert.strictEqual(out[0], "Unique: foobar");
    assert.strictEqual(out.at(-2), "  name: 'Baz',");
    assert.strictEqual(out.at(-1), "}");
  }

  // Doesn't capture stack trace.
  {
    function BadCustomError(msg) {
      Error.call(this);
      Object.defineProperty(this, "message", { value: msg, enumerable: false });
      Object.defineProperty(this, "name", { value: "BadCustomError", enumerable: false });
    }
    Object.setPrototypeOf(BadCustomError.prototype, Error.prototype);
    Object.setPrototypeOf(BadCustomError, Error);
    assert.strictEqual(util.inspect(new BadCustomError("foo")), "[BadCustomError: foo]");
  }

  // Tampered error stack or name property (different type than string).
  // Note: Symbols are not supported by `Error#toString()` which is called by accessing the `stack` property.
  // TODO: Node 20+ changed how it handles the these cases, we should update to match such behavior.
  // It should now preserve the original name and display the user-defined one as an extra property.
  [
    [404, "404: foo", "[404]"],
    [0, "0: foo", "[RangeError: foo]"],
    [0n, "0: foo", "[RangeError: foo]"],
    [null, "null: foo", "[RangeError: foo]"],
    //[undefined, 'RangeError: foo', '[RangeError: foo]'],
    [false, "false: foo", "[RangeError: foo]"],
    ["", "foo", "[RangeError: foo]"],
    //[[1, 2, 3], '1,2,3: foo', '[1,2,3]'],
  ].forEach(([value, outputStart, stack]) => {
    let err = new RangeError("foo");
    err.name = value;
    assert(
      util.inspect(err).startsWith(outputStart),
      util.format(
        'The name set to %o did not result in the expected output "%s", received "%s"',
        value,
        outputStart,
        util.inspect(err).split("\n")[0],
      ),
    );

    err = new RangeError("foo");
    err.stack = value;
    assert.strictEqual(util.inspect(err).split(" { ")[0], stack);
  });

  // https://github.com/nodejs/node-v0.x-archive/issues/1941
  assert.strictEqual(util.inspect({ __proto__: Date.prototype }), "Date {}");

  // https://github.com/nodejs/node-v0.x-archive/issues/1944
  {
    const d = new Date();
    d.toUTCString = null;
    util.inspect(d);
  }

  // Should not throw.
  {
    const d = new Date();
    d.toISOString = null;
    util.inspect(d);
  }

  // Should not throw.
  {
    const r = /regexp/;
    r.toString = null;
    util.inspect(r);
  }

  // Ref: https://github.com/nodejs/node-v0.x-archive/issues/2225
  {
    const x = { [util.inspect.custom]: util.inspect };
    assert(
      util.inspect(x).includes("[Symbol(nodejs.util.inspect.custom)]: [Function: inspect] {\n"),
      `Expected '${util.inspect(x)}' to include '[Symbol(nodejs.util.inspect.custom)]: [Function: inspect] {\n'`,
    );
  }

  // `util.inspect` should display the escaped value of a key.
  {
    const w = {
      "\\": 1,
      "\\\\": 2,
      "\\\\\\": 3,
      "\\\\\\\\": 4,
      "\n": 5,
      "\r": 6,
    };

    const y = ["a", "b", "c"];
    y["\\\\"] = "d";
    y["\n"] = "e";
    y["\r"] = "f";

    assert.strictEqual(
      util.inspect(w),
      "{ '\\\\': 1, '\\\\\\\\': 2, '\\\\\\\\\\\\': 3, " + "'\\\\\\\\\\\\\\\\': 4, '\\n': 5, '\\r': 6 }",
    );
    assert.strictEqual(util.inspect(y), "[ 'a', 'b', 'c', '\\\\\\\\': 'd', " + "'\\n': 'e', '\\r': 'f' ]");
  }

  // Escape unpaired surrogate pairs.
  {
    const edgeChar = String.fromCharCode(0xd799);

    for (let charCode = 0xd800; charCode < 0xdfff; charCode++) {
      const surrogate = String.fromCharCode(charCode);

      assert.strictEqual(util.inspect(surrogate), `'\\u${charCode.toString(16)}'`);
      assert.strictEqual(
        util.inspect(`${"a".repeat(200)}${surrogate}`),
        `'${"a".repeat(200)}\\u${charCode.toString(16)}'`,
      );
      assert.strictEqual(
        util.inspect(`${surrogate}${"a".repeat(200)}`),
        `'\\u${charCode.toString(16)}${"a".repeat(200)}'`,
      );
      if (charCode < 0xdc00) {
        const highSurrogate = surrogate;
        const lowSurrogate = String.fromCharCode(charCode + 1024);
        assert(!util.inspect(`${edgeChar}${highSurrogate}${lowSurrogate}${edgeChar}`).includes("\\u"));
        assert.strictEqual(
          (util.inspect(`${highSurrogate}${highSurrogate}${lowSurrogate}`).match(/\\u/g) ?? []).length,
          1,
        );
      } else {
        assert.strictEqual(
          util.inspect(`${edgeChar}${surrogate}${edgeChar}`),
          `'${edgeChar}\\u${charCode.toString(16)}${edgeChar}'`,
        );
      }
    }
  }

  // Test util.inspect.styles and util.inspect.colors.
  {
    function testColorStyle(style, input) {
      const colorName = util.inspect.styles[style];
      let color = ["", ""];
      if (util.inspect.colors[colorName]) color = util.inspect.colors[colorName];

      const withoutColor = util.inspect(input, false, 0, false);
      const withColor = util.inspect(input, false, 0, true);
      const expect = `\u001b[${color[0]}m${withoutColor}\u001b[${color[1]}m`;
      assert.strictEqual(withColor, expect, `util.inspect color for style ${style}`);
    }

    testColorStyle("special", function () {});
    testColorStyle("number", 123.456);
    testColorStyle("boolean", true);
    testColorStyle("undefined", undefined);
    testColorStyle("null", null);
    testColorStyle("string", "test string");
    testColorStyle("date", new Date());
    testColorStyle("regexp", /regexp/);
  }

  // An object with "hasOwnProperty" overwritten should not throw.
  util.inspect({ hasOwnProperty: null });

  // New API, accepts an "options" object.
  {
    const subject = { foo: "bar", hello: 31, a: { b: { c: { d: 0 } } } };
    Object.defineProperty(subject, "hidden", { enumerable: false, value: null });

    assert.strictEqual(util.inspect(subject, { showHidden: false }).includes("hidden"), false);
    assert.strictEqual(util.inspect(subject, { showHidden: true }).includes("hidden"), true);
    assert.strictEqual(util.inspect(subject, { colors: false }).includes("\u001b[32m"), false);
    assert.strictEqual(util.inspect(subject, { colors: true }).includes("\u001b[32m"), true);
    assert.strictEqual(util.inspect(subject, { depth: 2 }).includes("c: [Object]"), true);
    assert.strictEqual(util.inspect(subject, { depth: 0 }).includes("a: [Object]"), true);
    assert.strictEqual(util.inspect(subject, { depth: null }).includes("{ d: 0 }"), true);
    assert.strictEqual(util.inspect(subject, { depth: undefined }).includes("{ d: 0 }"), true);
  }

  {
    // "customInspect" option can enable/disable calling [util.inspect.custom]().
    const subject = { [util.inspect.custom]: () => 123 };

    assert.strictEqual(util.inspect(subject, { customInspect: true }).includes("123"), true);
    assert.strictEqual(util.inspect(subject, { customInspect: true }).includes("inspect"), false);
    assert.strictEqual(util.inspect(subject, { customInspect: false }).includes("123"), false);
    assert.strictEqual(util.inspect(subject, { customInspect: false }).includes("inspect"), true);

    // A custom [util.inspect.custom]() should be able to return other Objects.
    subject[util.inspect.custom] = () => ({ foo: "bar" });

    assert.strictEqual(util.inspect(subject), "{ foo: 'bar' }");

    subject[util.inspect.custom] = mustCall((depth, opts, inspect) => {
      const clone = { ...opts };
      // This might change at some point but for now we keep the stylize function.
      // The function should either be documented or an alternative should be implemented.
      assert.strictEqual(typeof opts.stylize, "function");
      assert.strictEqual(opts.seen, undefined);
      assert.strictEqual(opts.budget, undefined);
      assert.strictEqual(opts.indentationLvl, undefined);
      assert.strictEqual(opts.showHidden, false);
      assert.strictEqual(inspect, util.inspect);
      assert.deepStrictEqual(
        new Set(Object.keys(inspect.defaultOptions).concat(["stylize"])),
        new Set(Object.keys(opts)),
      );
      opts.showHidden = true;
      return {
        [inspect.custom]: mustCall((depth, opts2) => {
          assert.deepStrictEqual(clone, opts2);
        }),
      };
    });

    util.inspect(subject);

    // util.inspect.custom is a shared symbol which can be accessed as
    // Symbol.for("nodejs.util.inspect.custom").
    const inspect = Symbol.for("nodejs.util.inspect.custom");

    subject[inspect] = () => ({ baz: "quux" });

    assert.strictEqual(util.inspect(subject), "{ baz: 'quux' }");

    subject[inspect] = (depth, opts) => {
      assert.strictEqual(opts.customInspectOptions, true);
      assert.strictEqual(opts.seen, null);
      return {};
    };

    util.inspect(subject, { customInspectOptions: true, seen: null });
  }

  {
    const subject = {
      [util.inspect.custom]: mustCall((depth, opts) => {
        assert.strictEqual(depth, null);
        assert.strictEqual(opts.compact, true);
      }),
    };
    util.inspect(subject, { depth: null, compact: true });
  }

  {
    // Returning `this` from a custom inspection function works.
    const subject = {
      a: 123,
      [util.inspect.custom]() {
        return this;
      },
    };
    const UIC = "nodejs.util.inspect.custom";
    assert.strictEqual(util.inspect(subject), `{\n  a: 123,\n  [Symbol(${UIC})]: [Function: [${UIC}]]\n}`);
  }

  //! non-standard property
  // Verify that it's possible to use the stylize function to manipulate input.
  /*assert.strictEqual(
    util.inspect([1, 2, 3], { stylize() { return 'x'; } }),
    '[ x, x, x ]'
  );*/

  // Using `util.inspect` with "colors" option should produce as many lines as
  // without it.
  {
    function testLines(input) {
      const countLines = str => (str.match(/\n/g) || []).length;
      const withoutColor = util.inspect(input);
      const withColor = util.inspect(input, { colors: true });
      assert.strictEqual(countLines(withoutColor), countLines(withColor));
    }

    const bigArray = new Array(100).fill().map((value, index) => index);

    testLines([1, 2, 3, 4, 5, 6, 7]);
    testLines(bigArray);
    testLines({ foo: "bar", baz: 35, b: { a: 35 } });
    testLines({ a: { a: 3, b: 1, c: 1, d: 1, e: 1, f: 1, g: 1, h: 1 }, b: 1 });
    testLines({
      foo: "bar",
      baz: 35,
      b: { a: 35 },
      veryLongKey: "very long value",
      evenLongerKey: ["with even longer value in array"],
    });
  }

  // Test boxed primitives output the correct values.
  assert.strictEqual(util.inspect(new String("test")), "[String: 'test']");
  assert.strictEqual(util.inspect(new String("test"), { colors: true }), "\u001b[32m[String: 'test']\u001b[39m");
  assert.strictEqual(util.inspect(Object(Symbol("test"))), "[Symbol: Symbol(test)]");
  assert.strictEqual(util.inspect(new Boolean(false)), "[Boolean: false]");
  assert.strictEqual(util.inspect(Object.setPrototypeOf(new Boolean(true), null)), "[Boolean (null prototype): true]");
  assert.strictEqual(util.inspect(new Number(0)), "[Number: 0]");

  assert.strictEqual(
    util.inspect(
      Object.defineProperty(Object.setPrototypeOf(new Number(-0), Array.prototype), Symbol.toStringTag, {
        value: "Foobar",
      }),
    ),
    "[Number (Array): -0] [Foobar]",
  );
  assert.strictEqual(util.inspect(new Number(-1.1)), "[Number: -1.1]");
  assert.strictEqual(util.inspect(new Number(13.37)), "[Number: 13.37]");

  // Test boxed primitives with own properties.
  {
    const str = new String("baz");
    str.foo = "bar";
    assert.strictEqual(util.inspect(str), "[String: 'baz'] { foo: 'bar' }");

    const bool = new Boolean(true);
    bool.foo = "bar";
    assert.strictEqual(util.inspect(bool), "[Boolean: true] { foo: 'bar' }");

    const num = new Number(13.37);
    num.foo = "bar";
    assert.strictEqual(util.inspect(num), "[Number: 13.37] { foo: 'bar' }");

    const sym = Object(Symbol("foo"));
    sym.foo = "bar";
    assert.strictEqual(util.inspect(sym), "[Symbol: Symbol(foo)] { foo: 'bar' }");

    const big = Object(BigInt(55));
    big.foo = "bar";
    assert.strictEqual(util.inspect(big), "[BigInt: 55n] { foo: 'bar' }");
  }

  // Test es6 Symbol.
  if (typeof Symbol !== "undefined") {
    assert.strictEqual(util.inspect(Symbol()), "Symbol()");
    assert.strictEqual(util.inspect(Symbol(123)), "Symbol(123)");
    assert.strictEqual(util.inspect(Symbol("hi")), "Symbol(hi)");
    assert.strictEqual(util.inspect([Symbol()]), "[ Symbol() ]");
    assert.strictEqual(util.inspect({ foo: Symbol() }), "{ foo: Symbol() }");

    const options = { showHidden: true };
    let subject = {};

    subject[Symbol("sym\nbol")] = 42;

    assert.strictEqual(util.inspect(subject), "{ [Symbol(sym\\nbol)]: 42 }");
    assert.strictEqual(util.inspect(subject, options), "{ [Symbol(sym\\nbol)]: 42 }");

    Object.defineProperty(subject, Symbol(), { enumerable: false, value: "non-enum" });
    assert.strictEqual(util.inspect(subject), "{ [Symbol(sym\\nbol)]: 42 }");
    assert.strictEqual(util.inspect(subject, options), "{ [Symbol(sym\\nbol)]: 42, [Symbol()]: 'non-enum' }");

    subject = [1, 2, 3];
    subject[Symbol("symbol")] = 42;
    assert.strictEqual(util.inspect(subject), "[ 1, 2, 3, [Symbol(symbol)]: 42 ]");
  }

  // Test Set.
  {
    assert.strictEqual(util.inspect(new Set()), "Set(0) {}");
    assert.strictEqual(util.inspect(new Set([1, 2, 3])), "Set(3) { 1, 2, 3 }");
    assert.strictEqual(util.inspect(new Set([1, 2, 3]), { maxArrayLength: 1 }), "Set(3) { 1, ... 2 more items }");
    const set = new Set(["foo"]);
    set.bar = 42;
    assert.strictEqual(util.inspect(set, { showHidden: true }), "Set(1) { 'foo', bar: 42 }");
  }

  // Test circular Set.
  {
    const set = new Set();
    set.add(set);
    assert.strictEqual(util.inspect(set), "<ref *1> Set(1) { [Circular *1] }");
  }

  // Test Map.
  {
    assert.strictEqual(util.inspect(new Map()), "Map(0) {}");
    assert.strictEqual(
      util.inspect(
        new Map([
          [1, "a"],
          [2, "b"],
          [3, "c"],
        ]),
      ),
      "Map(3) { 1 => 'a', 2 => 'b', 3 => 'c' }",
    );
    assert.strictEqual(
      util.inspect(
        new Map([
          [1, "a"],
          [2, "b"],
          [3, "c"],
        ]),
        { maxArrayLength: 1 },
      ),
      "Map(3) { 1 => 'a', ... 2 more items }",
    );
    const map = new Map([["foo", null]]);
    map.bar = 42;
    assert.strictEqual(util.inspect(map, true), "Map(1) { 'foo' => null, bar: 42 }");
  }

  // Test circular Map.
  {
    const map = new Map();
    map.set(map, "map");
    assert.strictEqual(inspect(map), "<ref *1> Map(1) { [Circular *1] => 'map' }");
    map.set(map, map);
    assert.strictEqual(inspect(map), "<ref *1> Map(1) { [Circular *1] => [Circular *1] }");
    map.delete(map);
    map.set("map", map);
    assert.strictEqual(inspect(map), "<ref *1> Map(1) { 'map' => [Circular *1] }");
  }

  // Test multiple circular references.
  {
    const obj = {};
    obj.a = [obj];
    obj.b = {};
    obj.b.inner = obj.b;
    obj.b.obj = obj;

    assert.strictEqual(
      inspect(obj),
      "<ref *1> {\n" +
        "  a: [ [Circular *1] ],\n" +
        "  b: <ref *2> { inner: [Circular *2], obj: [Circular *1] }\n" +
        "}",
    );
  }

  // Test Promise.
  {
    const resolved = Promise.resolve(3);
    assert.strictEqual(util.inspect(resolved), "Promise { 3 }");

    const rejected = Promise.reject(3);
    assert.strictEqual(util.inspect(rejected), "Promise { <rejected> 3 }");
    // Squelch UnhandledPromiseRejection.
    rejected.catch(() => {});

    const pending = new Promise(() => {});
    assert.strictEqual(util.inspect(pending), "Promise { <pending> }");

    const promiseWithProperty = Promise.resolve("foo");
    promiseWithProperty.bar = 42;
    assert.strictEqual(util.inspect(promiseWithProperty), "Promise { 'foo', bar: 42 }");
  }

  // Make sure it doesn't choke on polyfills. Unlike Set/Map, there is no standard interface to
  // synchronously inspect a Promise, so our techniques only work on a bonafide native Promise.
  {
    const oldPromise = Promise;
    global.Promise = function () {
      this.bar = 42;
    };
    assert.strictEqual(util.inspect(new Promise()), "{ bar: 42 }");
    global.Promise = oldPromise;
  }

  // Test Map iterators.
  {
    const map = new Map([["foo", "bar"]]);
    assert.strictEqual(util.inspect(map.keys()), "[Map Iterator] { 'foo' }");
    const mapValues = map.values();
    Object.defineProperty(mapValues, Symbol.toStringTag, { value: "Foo" });
    assert.strictEqual(util.inspect(mapValues), "[Foo] [Map Iterator] { 'bar' }");
    map.set("A", "B!");
    assert.strictEqual(
      util.inspect(map.entries(), { maxArrayLength: 1 }),
      "[Map Entries] { [ 'foo', 'bar' ], ... 1 more item }",
    );
    // Make sure the iterator doesn't get consumed.
    const keys = map.keys();
    assert.strictEqual(util.inspect(keys), "[Map Iterator] { 'foo', 'A' }");
    assert.strictEqual(util.inspect(keys), "[Map Iterator] { 'foo', 'A' }");
    keys.extra = true;
    assert.strictEqual(util.inspect(keys, { maxArrayLength: 0 }), "[Map Iterator] { ... 2 more items, extra: true }");
  }

  // Test Set iterators.
  {
    const aSet = new Set([1]);
    assert.strictEqual(util.inspect(aSet.entries(), { compact: false }), "[Set Entries] {\n  [\n    1,\n    1\n  ]\n}");
    aSet.add(3);
    assert.strictEqual(util.inspect(aSet.keys()), "[Set Iterator] { 1, 3 }");
    assert.strictEqual(util.inspect(aSet.values()), "[Set Iterator] { 1, 3 }");
    const setEntries = aSet.entries();
    Object.defineProperty(setEntries, Symbol.toStringTag, { value: "Foo" });
    assert.strictEqual(util.inspect(setEntries), "[Foo] [Set Entries] { [ 1, 1 ], [ 3, 3 ] }");
    // Make sure the iterator doesn't get consumed.
    const keys = aSet.keys();
    Object.defineProperty(keys, Symbol.toStringTag, { value: null });
    assert.strictEqual(util.inspect(keys), "[Set Iterator] { 1, 3 }");
    assert.strictEqual(util.inspect(keys), "[Set Iterator] { 1, 3 }");
    keys.extra = true;
    assert.strictEqual(util.inspect(keys, { maxArrayLength: 1 }), "[Set Iterator] { 1, ... 1 more item, extra: true }");
  }

  // Minimal inspection should still return as much information as possible about
  // the constructor and Symbol.toStringTag.
  {
    class Foo {
      get [Symbol.toStringTag]() {
        return "ABC";
      }
    }
    const a = new Foo();
    assert.strictEqual(inspect(a, { depth: -1 }), "Foo [ABC] {}");
    a.foo = true;
    assert.strictEqual(inspect(a, { depth: -1 }), "[Foo [ABC]]");
    Object.defineProperty(a, Symbol.toStringTag, {
      value: "Foo",
      configurable: true,
      writable: true,
    });
    assert.strictEqual(inspect(a, { depth: -1 }), "[Foo]");
    delete a[Symbol.toStringTag];
    Object.setPrototypeOf(a, null);
    // TODO: null prototypes
    // assert.strictEqual(inspect(a, { depth: -1 }), '[Foo: null prototype]');
    assert.strictEqual(inspect(a, { depth: -1 }), "[Object: null prototype]");
    delete a.foo;
    assert.strictEqual(
      inspect(a, { depth: -1 }),
      // TODO: '[Foo: null prototype] {}');
      "[Object: null prototype] {}",
    );
    Object.defineProperty(a, Symbol.toStringTag, {
      value: "ABC",
      configurable: true,
    });
    assert.strictEqual(
      inspect(a, { depth: -1 }),
      // TODO: '[Foo: null prototype] [ABC] {}'
      "[Object: null prototype] [ABC] {}",
    );
    Object.defineProperty(a, Symbol.toStringTag, {
      value: "Foo",
      configurable: true,
    });
    assert.strictEqual(inspect(a, { depth: -1 }), "[Object: null prototype] [Foo] {}");
  }

  // Test alignment of items in container.
  // Assumes that the first numeric character is the start of an item.
  {
    function checkAlignment(container, start, lineX, end) {
      const lines = util.inspect(container).split("\n");
      lines.forEach((line, i) => {
        if (i === 0) {
          assert.strictEqual(line, start);
        } else if (i === lines.length - 1) {
          assert.strictEqual(line, end);
        } else {
          let expected = lineX.replace("X", i - 1);
          if (i !== lines.length - 2) expected += ",";
          assert.strictEqual(line, expected);
        }
      });
    }

    const bigArray = [];
    for (let i = 0; i < 100; i++) {
      bigArray.push(i);
    }

    const obj = {};
    bigArray.forEach(prop => {
      obj[prop] = null;
    });

    checkAlignment(obj, "{", "  'X': null", "}");
    checkAlignment(new Set(bigArray), "Set(100) {", "  X", "}");
    checkAlignment(new Map(bigArray.map(number => [number, null])), "Map(100) {", "  X => null", "}");
  }

  // Test display of constructors.
  {
    class ObjectSubclass {}
    class ArraySubclass extends Array {}
    class SetSubclass extends Set {}
    class MapSubclass extends Map {}
    class PromiseSubclass extends Promise {}
    class SymbolNameClass {
      static name = Symbol("name");
    }

    const x = new ObjectSubclass();
    x.foo = 42;
    assert.strictEqual(util.inspect(x), "ObjectSubclass { foo: 42 }");
    assert.strictEqual(util.inspect(new ArraySubclass(1, 2, 3)), "ArraySubclass(3) [ 1, 2, 3 ]");
    assert.strictEqual(util.inspect(new SetSubclass([1, 2, 3])), "SetSubclass(3) [Set] { 1, 2, 3 }");
    assert.strictEqual(util.inspect(new MapSubclass([["foo", 42]])), "MapSubclass(1) [Map] { 'foo' => 42 }");
    assert.strictEqual(util.inspect(new PromiseSubclass(() => {})), "PromiseSubclass [Promise] { <pending> }");
    assert.strictEqual(util.inspect(new SymbolNameClass()), "Symbol(name) {}");
    assert.strictEqual(
      util.inspect({ a: { b: new ArraySubclass([1, [2], 3]) } }, { depth: 1 }),
      "{ a: { b: [ArraySubclass] } }",
    );
    assert.strictEqual(
      util.inspect(Object.setPrototypeOf(x, null)),
      // TODO: '[ObjectSubclass: null prototype] { foo: 42 }'
      "[Object: null prototype] { foo: 42 }",
    );
  }

  // Empty and circular before depth.
  {
    const arr = [[[[]]]];
    assert.strictEqual(util.inspect(arr), "[ [ [ [] ] ] ]");
    arr[0][0][0][0] = [];
    assert.strictEqual(util.inspect(arr), "[ [ [ [Array] ] ] ]");
    arr[0][0][0] = {};
    assert.strictEqual(util.inspect(arr), "[ [ [ {} ] ] ]");
    arr[0][0][0] = { a: 2 };
    assert.strictEqual(util.inspect(arr), "[ [ [ [Object] ] ] ]");
    arr[0][0][0] = arr;
    assert.strictEqual(util.inspect(arr), "<ref *1> [ [ [ [Circular *1] ] ] ]");
    arr[0][0][0] = arr[0][0];
    assert.strictEqual(util.inspect(arr), "[ [ <ref *1> [ [Circular *1] ] ] ]");
  }

  // Corner cases.
  {
    const x = { constructor: 42 };
    assert.strictEqual(util.inspect(x), "{ constructor: 42 }");
  }

  {
    const x = {};
    Object.defineProperty(x, "constructor", {
      get: function () {
        throw new Error("should not access constructor");
      },
      enumerable: true,
    });
    assert.strictEqual(util.inspect(x), "{ constructor: [Getter] }");
  }

  {
    const x = new (function () {})();
    assert.strictEqual(util.inspect(x), "{}");
  }

  {
    const x = { __proto__: null };
    assert.strictEqual(util.inspect(x), "[Object: null prototype] {}");
  }

  {
    const x = [];
    x[""] = 1;
    assert.strictEqual(util.inspect(x), "[ '': 1 ]");
  }

  // The following maxArrayLength tests were introduced after v6.0.0 was released.
  // Do not backport to v5/v4 unless all of
  // https://github.com/nodejs/node/pull/6334 is backported.
  {
    const x = new Array(101).fill();
    assert(util.inspect(x).endsWith("1 more item\n]"));
    assert(!util.inspect(x, { maxArrayLength: 101 }).endsWith("1 more item\n]"));
    assert.strictEqual(util.inspect(x, { maxArrayLength: -1 }), "[ ... 101 more items ]");
    assert.strictEqual(util.inspect(x, { maxArrayLength: 0 }), "[ ... 101 more items ]");
  }

  {
    const x = Array(101);
    assert.strictEqual(util.inspect(x, { maxArrayLength: 0 }), "[ ... 101 more items ]");
    assert(!util.inspect(x, { maxArrayLength: null }).endsWith("1 more item\n]"));
    assert(!util.inspect(x, { maxArrayLength: Infinity }).endsWith("1 more item ]"));
  }

  {
    const x = new Uint8Array(101);
    assert(util.inspect(x).endsWith("1 more item\n]"));
    assert(!util.inspect(x, { maxArrayLength: 101 }).includes("1 more item"));
    assert.strictEqual(util.inspect(x, { maxArrayLength: 0 }), "Uint8Array(101) [ ... 101 more items ]");
    assert(!util.inspect(x, { maxArrayLength: null }).includes("1 more item"));
    assert(util.inspect(x, { maxArrayLength: Infinity }).endsWith(" 0, 0\n]"));
  }

  {
    const obj = { foo: "abc", bar: "xyz" };
    const oneLine = util.inspect(obj, { breakLength: Infinity });
    // Subtract four for the object's two curly braces and two spaces of padding.
    // Add one more to satisfy the strictly greater than condition in the code.
    const breakpoint = oneLine.length - 5;
    const twoLines = util.inspect(obj, { breakLength: breakpoint });

    assert.strictEqual(oneLine, "{ foo: 'abc', bar: 'xyz' }");
    assert.strictEqual(util.inspect(obj, { breakLength: breakpoint + 1 }), twoLines);
    assert.strictEqual(twoLines, "{\n  foo: 'abc',\n  bar: 'xyz'\n}");
  }

  // util.inspect.defaultOptions tests.
  {
    const arr = new Array(101).fill();
    const obj = { a: { a: { a: { a: 1 } } } };

    const oldOptions = { ...util.inspect.defaultOptions };

    // Set single option through property assignment.
    util.inspect.defaultOptions.maxArrayLength = null;
    assert.doesNotMatch(util.inspect(arr), /1 more item/);
    util.inspect.defaultOptions.maxArrayLength = oldOptions.maxArrayLength;
    assert.match(util.inspect(arr), /1 more item/);
    util.inspect.defaultOptions.depth = null;
    assert.doesNotMatch(util.inspect(obj), /Object/);
    util.inspect.defaultOptions.depth = oldOptions.depth;
    assert.match(util.inspect(obj), /Object/);
    assert.strictEqual(JSON.stringify(util.inspect.defaultOptions), JSON.stringify(oldOptions));

    // Set multiple options through object assignment.
    util.inspect.defaultOptions = { maxArrayLength: null, depth: 2 };
    assert.doesNotMatch(util.inspect(arr), /1 more item/);
    assert.match(util.inspect(obj), /Object/);
    util.inspect.defaultOptions = oldOptions;
    assert.match(util.inspect(arr), /1 more item/);
    assert.match(util.inspect(obj), /Object/);
    assert.strictEqual(JSON.stringify(util.inspect.defaultOptions), JSON.stringify(oldOptions));

    assert.throws(
      () => {
        util.inspect.defaultOptions = null;
      },
      {
        code: "ERR_INVALID_ARG_TYPE",
        name: "TypeError",
        message: 'The "options" argument must be of type object. ' + "Received null",
      },
    );

    assert.throws(
      () => {
        util.inspect.defaultOptions = "bad";
      },
      {
        code: "ERR_INVALID_ARG_TYPE",
        name: "TypeError",
        message: 'The "options" argument must be of type object. ' + "Received type string ('bad')",
      },
    );
  }

  util.inspect(process);

  // Setting custom inspect property to a non-function should do nothing.
  {
    const obj = { [util.inspect.custom]: "fhqwhgads" };
    assert.strictEqual(util.inspect(obj), "{ [Symbol(nodejs.util.inspect.custom)]: 'fhqwhgads' }");
  }

  {
    // @@toStringTag
    const obj = { [Symbol.toStringTag]: "a" };
    assert.strictEqual(util.inspect(obj), "{ [Symbol(Symbol.toStringTag)]: 'a' }");
    Object.defineProperty(obj, Symbol.toStringTag, {
      value: "a",
      enumerable: false,
    });
    assert.strictEqual(util.inspect(obj), "Object [a] {}");
    assert.strictEqual(util.inspect(obj, { showHidden: true }), "{ [Symbol(Symbol.toStringTag)]: 'a' }");

    class Foo {
      constructor() {
        this.foo = "bar";
      }

      get [Symbol.toStringTag]() {
        return this.foo;
      }
    }

    assert.strictEqual(
      util.inspect(Object.create(null, { [Symbol.toStringTag]: { value: "foo" } })),
      "[Object: null prototype] [foo] {}",
    );

    assert.strictEqual(util.inspect(new Foo()), "Foo [bar] { foo: 'bar' }");

    assert.strictEqual(util.inspect(new (class extends Foo {})()), "Foo [bar] { foo: 'bar' }");

    assert.strictEqual(
      util.inspect(
        Object.create(
          { __proto__: Foo.prototype },
          {
            foo: { value: "bar", enumerable: true },
          },
        ),
      ),
      "Foo [bar] { foo: 'bar' }",
    );

    class ThrowingClass {
      get [Symbol.toStringTag]() {
        throw new Error("toStringTag error");
      }
    }

    assert.throws(() => util.inspect(new ThrowingClass()), /toStringTag error/);

    class NotStringClass {
      get [Symbol.toStringTag]() {
        return null;
      }
    }

    assert.strictEqual(util.inspect(new NotStringClass()), "NotStringClass {}");
  }

  {
    const o = {
      a: [
        1,
        2,
        [
          [
            "Lorem ipsum dolor\nsit amet,\tconsectetur adipiscing elit, sed do " +
              "eiusmod tempor incididunt ut labore et dolore magna aliqua.",
            "test",
            "foo",
          ],
        ],
        4,
      ],
      b: new Map([
        ["za", 1],
        ["zb", "test"],
      ]),
    };

    let out = util.inspect(o, { compact: true, depth: 5, breakLength: 80 });
    let expect = [
      "{ a:",
      "   [ 1,",
      "     2,",
      "     [ [ 'Lorem ipsum dolor\\nsit amet,\\tconsectetur adipiscing elit, " +
        "sed do eiusmod tempor incididunt ut labore et dolore magna aliqua.',",
      "         'test',",
      "         'foo' ] ],",
      "     4 ],",
      "  b: Map(2) { 'za' => 1, 'zb' => 'test' } }",
    ].join("\n");
    assert.strictEqual(out, expect);

    out = util.inspect(o, { compact: false, depth: 5, breakLength: 60 });
    expect = [
      "{",
      "  a: [",
      "    1,",
      "    2,",
      "    [",
      "      [",
      "        'Lorem ipsum dolor\\n' +",
      "          'sit amet,\\tconsectetur adipiscing elit, sed do eiusmod " +
        "tempor incididunt ut labore et dolore magna aliqua.',",
      "        'test',",
      "        'foo'",
      "      ]",
      "    ],",
      "    4",
      "  ],",
      "  b: Map(2) {",
      "    'za' => 1,",
      "    'zb' => 'test'",
      "  }",
      "}",
    ].join("\n");
    assert.strictEqual(out, expect);

    out = util.inspect(o.a[2][0][0], { compact: false, breakLength: 30 });
    expect = [
      "'Lorem ipsum dolor\\n' +",
      "  'sit amet,\\tconsectetur adipiscing elit, sed do eiusmod tempor " +
        "incididunt ut labore et dolore magna aliqua.'",
    ].join("\n");
    assert.strictEqual(out, expect);

    out = util.inspect("12345678901234567890123456789012345678901234567890", { compact: false, breakLength: 3 });
    expect = "'12345678901234567890123456789012345678901234567890'";
    assert.strictEqual(out, expect);

    out = util.inspect("12 45 78 01 34 67 90 23 56 89 123456789012345678901234567890", {
      compact: false,
      breakLength: 3,
    });
    expect = ["'12 45 78 01 34 67 90 23 56 89 123456789012345678901234567890'"].join("\n");
    assert.strictEqual(out, expect);

    o.a = () => {};
    o.b = new Number(3);
    out = util.inspect(o, { compact: false, breakLength: 3 });
    expect = ["{", "  a: [Function (anonymous)],", "  b: [Number: 3]", "}"].join("\n");
    assert.strictEqual(out, expect);

    out = util.inspect(o, { compact: false, breakLength: 3, showHidden: true });
    expect = [
      "{",
      "  a: [Function (anonymous)] {",
      "    [length]: 0,",
      "    [name]: ''",
      "  },",
      "  b: [Number: 3]",
      "}",
    ].join("\n");
    assert.strictEqual(out, expect);

    o[util.inspect.custom] = () => 42;
    out = util.inspect(o, { compact: false, breakLength: 3 });
    expect = "42";
    assert.strictEqual(out, expect);

    o[util.inspect.custom] = () => "12 45 78 01 34 67 90 23";
    out = util.inspect(o, { compact: false, breakLength: 3 });
    expect = "12 45 78 01 34 67 90 23";
    assert.strictEqual(out, expect);

    o[util.inspect.custom] = () => ({ a: "12 45 78 01 34 67 90 23" });
    out = util.inspect(o, { compact: false, breakLength: 3 });
    expect = "{\n  a: '12 45 78 01 34 67 90 23'\n}";
    assert.strictEqual(out, expect);
  }

  // Check compact indentation.
  {
    const typed = new Uint8Array();
    typed.buffer.foo = true;
    const set = new Set([[1, 2]]);
    const promise = Promise.resolve([[1, set]]);
    const map = new Map([[promise, typed]]);
    map.set(set.values(), map.values());

    let out = util.inspect(map, { compact: false, showHidden: true, depth: 9 });
    let expected = [
      "Map(2) {",
      "  Promise {",
      "    [",
      "      [",
      "        1,",
      "        Set(1) {",
      "          [",
      "            1,",
      "            2,",
      "            [length]: 2",
      "          ]",
      "        },",
      "        [length]: 2",
      "      ],",
      "      [length]: 1",
      "    ]",
      "  } => Uint8Array(0) [",
      "    [BYTES_PER_ELEMENT]: 1,",
      "    [length]: 0,",
      "    [byteLength]: 0,",
      "    [byteOffset]: 0,",
      "    [buffer]: ArrayBuffer {",
      "      byteLength: 0,",
      "      foo: true",
      "    }",
      "  ],",
      "  [Set Iterator] {",
      "    [",
      "      1,",
      "      2,",
      "      [length]: 2",
      "    ],",
      "    [Symbol(Symbol.toStringTag)]: 'Set Iterator'",
      "  } => <ref *1> [Map Iterator] {",
      "    Uint8Array(0) [",
      "      [BYTES_PER_ELEMENT]: 1,",
      "      [length]: 0,",
      "      [byteLength]: 0,",
      "      [byteOffset]: 0,",
      "      [buffer]: ArrayBuffer {",
      "        byteLength: 0,",
      "        foo: true",
      "      }",
      "    ],",
      "    [Circular *1],",
      "    [Symbol(Symbol.toStringTag)]: 'Map Iterator'",
      "  }",
      "}",
    ].join("\n");

    assert.strict.equal(out, expected);

    out = util.inspect(map, { compact: 2, showHidden: true, depth: 9 });

    expected = [
      "Map(2) {",
      "  Promise {\n" + "    [",
      "      [",
      "        1,",
      "        Set(1) { [ 1, 2, [length]: 2 ] },",
      "        [length]: 2",
      "      ],",
      "      [length]: 1",
      "    ]",
      "  } => Uint8Array(0) [",
      "    [BYTES_PER_ELEMENT]: 1,",
      "    [length]: 0,",
      "    [byteLength]: 0,",
      "    [byteOffset]: 0,",
      "    [buffer]: ArrayBuffer { byteLength: 0, foo: true }",
      "  ],",
      "  [Set Iterator] {\n" + "    [ 1, 2, [length]: 2 ],",
      "    [Symbol(Symbol.toStringTag)]: 'Set Iterator'\n" +
        "  } => <ref *1> [Map Iterator] {\n" +
        "    Uint8Array(0) [",
      "      [BYTES_PER_ELEMENT]: 1,",
      "      [length]: 0,",
      "      [byteLength]: 0,",
      "      [byteOffset]: 0,",
      "      [buffer]: ArrayBuffer { byteLength: 0, foo: true }",
      "    ],",
      "    [Circular *1],",
      "    [Symbol(Symbol.toStringTag)]: 'Map Iterator'\n" + "  }",
      "}",
    ].join("\n");

    assert.strict.equal(out, expected);

    out = util.inspect(map, {
      showHidden: true,
      depth: 9,
      breakLength: 4,
      compact: true,
    });

    expected = [
      "Map(2) {",
      "  Promise {",
      "    [ [ 1,",
      "        Set(1) {",
      "          [ 1,",
      "            2,",
      "            [length]: 2 ] },",
      "        [length]: 2 ],",
      "      [length]: 1 ] } => Uint8Array(0) [",
      "    [BYTES_PER_ELEMENT]: 1,",
      "    [length]: 0,",
      "    [byteLength]: 0,",
      "    [byteOffset]: 0,",
      "    [buffer]: ArrayBuffer {",
      "      byteLength: 0,",
      "      foo: true } ],",
      "  [Set Iterator] {",
      "    [ 1,",
      "      2,",
      "      [length]: 2 ],",
      "    [Symbol(Symbol.toStringTag)]:",
      "     'Set Iterator' } => <ref *1> [Map Iterator] {",
      "    Uint8Array(0) [",
      "      [BYTES_PER_ELEMENT]: 1,",
      "      [length]: 0,",
      "      [byteLength]: 0,",
      "      [byteOffset]: 0,",
      "      [buffer]: ArrayBuffer {",
      "        byteLength: 0,",
      "        foo: true } ],",
      "    [Circular *1],",
      "    [Symbol(Symbol.toStringTag)]:",
      "     'Map Iterator' } }",
    ].join("\n");

    assert.strict.equal(out, expected);
  }

  {
    // Test WeakMap && WeakSet
    const obj = {};
    const arr = [];
    const weakMap = new WeakMap([
      [obj, arr],
      [arr, obj],
    ]);
    let out = util.inspect(weakMap, { showHidden: true });
    // TODO: WeakMap internals
    // let expect = 'WeakMap { [ [length]: 0 ] => {}, {} => [ [length]: 0 ] }';
    let expect = "WeakMap {  }";
    assert.strictEqual(out, expect);

    out = util.inspect(weakMap);
    expect = "WeakMap { <items unknown> }";
    assert.strictEqual(out, expect);

    out = util.inspect(weakMap, { maxArrayLength: 0, showHidden: true });
    // expect = 'WeakMap { ... 2 more items }';
    expect = "WeakMap {  }";
    assert.strictEqual(out, expect);

    weakMap.extra = true;
    out = util.inspect(weakMap, { maxArrayLength: 1, showHidden: true });
    // It is not possible to determine the output reliable.
    // expect = 'WeakMap { [ [length]: 0 ] => {}, ... 1 more item, extra: true }';
    // let expectAlt = 'WeakMap { {} => [ [length]: 0 ], ... 1 more item, extra: true }';
    assert(
      out === "WeakMap { extra: true }", //out === expect || out === expectAlt,
      `Found: "${out}"\nrather than: "WeakMap { extra: true }"`,
    ); //"${expect}"\nor: "${expectAlt}"`);

    // Test WeakSet
    arr.push(1);
    const weakSet = new WeakSet([obj, arr]);
    out = util.inspect(weakSet, { showHidden: true });
    // TODO: WeakSet internals
    // expect = 'WeakSet { [ 1, [length]: 1 ], {} }';
    expect = "WeakSet {  }";
    assert.strictEqual(out, expect);

    out = util.inspect(weakSet);
    expect = "WeakSet { <items unknown> }";
    assert.strictEqual(out, expect);

    out = util.inspect(weakSet, { maxArrayLength: -2, showHidden: true });
    //expect = 'WeakSet { ... 2 more items }';
    expect = "WeakSet {  }";
    assert.strictEqual(out, expect);

    weakSet.extra = true;
    out = util.inspect(weakSet, { maxArrayLength: 1, showHidden: true });
    // It is not possible to determine the output reliable.
    // expect = 'WeakSet { {}, ... 1 more item, extra: true }';
    // expectAlt = 'WeakSet { [ 1, [length]: 1 ], ... 1 more item, extra: true }';
    assert(
      out === "WeakSet { extra: true }", //out === expect || out === expectAlt,
      `Found: "${out}"\nrather than: "WeakSet { extra: true }"`,
    ); //"${expect}"\nor: "${expectAlt}"`);
    // Keep references to the WeakMap entries, otherwise they could be GCed too early.
    assert(obj && arr);
  }

  {
    // Test argument objects.
    const args = (function () {
      return arguments;
    })("a");
    assert.strictEqual(util.inspect(args), "[Arguments] { '0': 'a' }");
  }
});

test("util.inspect stack overflow handling", () => {
  // Test that a long linked list can be inspected without throwing an error.
  const list = {};
  let head = list;
  // A linked list of length 100k should be inspectable in some way, even though
  // the real cutoff value is much lower than 100k.
  for (let i = 0; i < 10000; i++) head = head.next = {};
  assert.strictEqual(util.inspect(list), "{ next: { next: { next: [Object] } } }");
  const longList = util.inspect(list, { depth: Infinity });
  const match = longList.match(/next/g);
  //? The current limit is set to a fixed 1000, as higher values cause
  //? the creation of unmanageably large strings which can crash or hang.
  //? For comparison, despite their test checking for up to 10000,
  //? Node will generally cutoff with a stack overflow at around 900.
  assert(match.length > 500 && match.length < 10000);
  assert(longList.includes("[Object: Inspection interrupted prematurely. Maximum call stack size exceeded.]"));
});

test("no assertion failures 3", () => {
  // Do not escape single quotes if no double quote or backtick is present.
  assert.strictEqual(util.inspect("'"), '"\'"');
  assert.strictEqual(util.inspect("\"'"), "`\"'`");
  assert.strictEqual(util.inspect("\"'${a}"), "'\"\\'${a}'");

  // Errors should visualize as much information as possible.
  // If the name is not included in the stack, visualize it as well.
  [
    [class Foo extends TypeError {}, "test"],
    [class Foo extends TypeError {}, undefined],
    [class BarError extends Error {}, "test"],
    [
      class BazError extends Error {
        get name() {
          return "BazError";
        }
      },
      undefined,
    ],
  ].forEach(([Class, message], i) => {
    const foo = new Class(message);
    const extra = Class.name.includes("Error") ? "" : ` [${foo.name}]`;
    // TODO: Bun messes with `Error.stack` and this causes this to fail
    // assert(
    //   util.inspect(foo).startsWith(`${Class.name}${extra}${message ? `: ${message}` : "\n"}`),
    //   util.inspect(foo) + "\n...did not start with: " + `${Class.name}${extra}${message ? `: ${message}` : "\n"}`,
    // );
    Object.defineProperty(foo, Symbol.toStringTag, {
      value: "WOW",
      writable: true,
      configurable: true,
    });
    const stack = foo.stack;
    foo.stack = "This is a stack";
    assert(
      util.inspect(foo).startsWith("[This is a stack]"),
      `Expected to start with: "[This is a stack]"\nFound: "${util.inspect(foo)}"`,
    );
    foo.stack = stack;
    // TODO: Bun messes with `Error.stack` and this causes this to fail
    // assert(
    //   util.inspect(foo).startsWith(`${Class.name} [WOW]${extra}${message ? `: ${message}` : "\n"}`),
    //   util.inspect(foo),
    // );
    Object.setPrototypeOf(foo, null);
    assert(
      util.inspect(foo).startsWith(
        // TODO: null prototypes
        // `[${name}: null prototype] [WOW]${message ? `: ${message}` : '\n'}`
        "[Object: null prototype] [WOW] {",
      ),
      util.inspect(foo),
    );
    foo.bar = true;
    delete foo[Symbol.toStringTag];
    let tmp = util.inspect(foo);
    assert(
      tmp.startsWith(
        // TODO: null prototypes
        // `[${name}: null prototype]${message ? `: ${message}` : '\n'}`),
        "[Error: null prototype] {",
      ) && tmp.includes("bar: true"),
      tmp,
    );
    foo.stack = "This is a stack";
    tmp = util.inspect(foo);
    assert(
      tmp.startsWith(
        // TODO: null prototypes
        // '[[Error: null prototype]: This is a stack] { bar: true }'
        "[Error: null prototype] {",
      ) && tmp.includes("bar: true"),
      tmp,
    );
    foo.stack = stack.split("\n")[0];
    tmp = util.inspect(foo);
    assert(
      tmp.startsWith(
        // TODO: null prototypes
        // `[[${name}: null prototype]${message ? `:\n    ${message}` : ''}] { bar: true }`
        "[Error: null prototype] {",
      ) && tmp.includes("bar: true"),
      tmp,
    );
  });

  // Verify that classes are properly inspected.
  [
    // The whitespace is intentional.
    [class {}, "[class (anonymous)]"],
    [
      class extends Error {
        log() {}
      },
      "[class (anonymous) extends Error]",
    ],
    [
      class A {
        constructor(a) {
          this.a = a;
        }
        log() {
          return this.a;
        }
      },
      "[class A]",
    ],
    [
      class // Random { // comments /* */ are part of the toString() result
        äß /**/
        extends /*{*/ TypeError {},
      "[class äß extends TypeError]",
    ],
    /* The whitespace and new line is intended! */
    // Foobar !!!
    [
      class X extends /****/ Error {
        // More comments
      },
      "[class X extends Error]",
    ],
  ].forEach(([clazz, string]) => {
    const inspected = util.inspect(clazz);
    assert.strictEqual(inspected, string);
    Object.defineProperty(clazz, Symbol.toStringTag, {
      value: "Woohoo",
    });
    const parts = inspected.slice(0, -1).split(" ");
    const [, name, ...rest] = parts;
    rest.unshift("[Woohoo]");
    if (rest.length) {
      rest[rest.length - 1] += "]";
    }
    assert.strictEqual(util.inspect(clazz), ["[class", name, ...rest].join(" "));
    if (rest.length) {
      rest[rest.length - 1] = rest[rest.length - 1].slice(0, -1);
      rest.length = 1;
    }
    Object.setPrototypeOf(clazz, Map.prototype);
    assert.strictEqual(util.inspect(clazz), ["[class", name, "[Map]", ...rest].join(" ") + "]");
    Object.setPrototypeOf(clazz, null);
    assert.strictEqual(util.inspect(clazz), ["[class", name, ...rest, "extends [null prototype]]"].join(" "));
    Object.defineProperty(clazz, "name", { value: "Foo" });
    const res = ["[class", "Foo", ...rest, "extends [null prototype]]"].join(" ");
    assert.strictEqual(util.inspect(clazz), res);
    clazz.foo = true;
    assert.strictEqual(util.inspect(clazz), `${res} { foo: true }`);
  });

  // "class" properties should not be detected as "class".
  {
    let obj = { class() {} };
    assert.strictEqual(util.inspect(obj), "{ class: [Function: class] }");
    obj = { class: () => {} };
    assert.strictEqual(util.inspect(obj), "{ class: [Function: class] }");
    obj = { ["class Foo {}"]() {} };
    assert.strictEqual(util.inspect(obj), "{ 'class Foo {}': [Function: class Foo {}] }");
    function Foo() {}
    Object.defineProperty(Foo, "toString", { value: () => "class Foo {}" });
    assert.strictEqual(util.inspect(Foo), "[Function: Foo]");
    function fn() {}
    Object.defineProperty(fn, "name", { value: "class Foo {}" });
    assert.strictEqual(util.inspect(fn), "[Function: class Foo {}]");
  }

  // Verify that throwing in valueOf and toString still produces nice results.
  [
    [new String(55), "[String: '55']"],
    [new Boolean(true), "[Boolean: true]"],
    [new Number(55), "[Number: 55]"],
    [Object(BigInt(55)), "[BigInt: 55n]"],
    [Object(Symbol("foo")), "[Symbol: Symbol(foo)]"],
    [function () {}, "[Function (anonymous)]"],
    [() => {}, "[Function (anonymous)]"],
    [[1, 2], "[ 1, 2 ]"],
    [[, , 5, , , ,], "[ <2 empty items>, 5, <3 empty items> ]"],
    [{ a: 5 }, "{ a: 5 }"],
    [new Set([1, 2]), "Set(2) { 1, 2 }"],
    [new Map([[1, 2]]), "Map(1) { 1 => 2 }"],
    [new Set([1, 2]).entries(), "[Set Entries] { [ 1, 1 ], [ 2, 2 ] }"],
    [new Map([[1, 2]]).keys(), "[Map Iterator] { 1 }"],
    [new Date(2000), "1970-01-01T00:00:02.000Z"],
    [new Uint8Array(2), "Uint8Array(2) [ 0, 0 ]"],
    [new Promise(resolve => setTimeout(resolve, 10)), "Promise { <pending> }"],
    [new WeakSet(), "WeakSet { <items unknown> }"],
    [new WeakMap(), "WeakMap { <items unknown> }"],
    [/foobar/g, "/foobar/g"],
  ].forEach(([value, expected]) => {
    Object.defineProperty(value, "valueOf", {
      get() {
        throw new Error("valueOf");
      },
    });
    Object.defineProperty(value, "toString", {
      get() {
        throw new Error("toString");
      },
    });
    assert.strictEqual(util.inspect(value), expected);
    value.foo = "bar";
    assert.notStrictEqual(util.inspect(value), expected);
    delete value.foo;
    value[Symbol("foo")] = "yeah";
    assert.notStrictEqual(util.inspect(value), expected);
  });

  // Verify that having no prototype still produces nice results.
  [
    [[1, 3, 4], "[Array(3): null prototype] [ 1, 3, 4 ]"],
    [/foobar/, "[RegExp: null prototype] /foobar/"],
    [new Set([1, 2]), "[Set(2): null prototype] { 1, 2 }"],
    [new Map([[1, 2]]), "[Map(1): null prototype] { 1 => 2 }"],
    [new Promise(resolve => setTimeout(resolve, 10)), "[Promise: null prototype] { <pending> }"],
    [new WeakSet(), "[WeakSet: null prototype] { <items unknown> }"],
    [new WeakMap(), "[WeakMap: null prototype] { <items unknown> }"],
    [new Uint8Array(2), "[Uint8Array(2): null prototype] [ 0, 0 ]"],
    [new Uint16Array(2), "[Uint16Array(2): null prototype] [ 0, 0 ]"],
    [new Uint32Array(2), "[Uint32Array(2): null prototype] [ 0, 0 ]"],
    [new Int8Array(2), "[Int8Array(2): null prototype] [ 0, 0 ]"],
    [new Int16Array(2), "[Int16Array(2): null prototype] [ 0, 0 ]"],
    [new Int32Array(2), "[Int32Array(2): null prototype] [ 0, 0 ]"],
    [new Float32Array(2), "[Float32Array(2): null prototype] [ 0, 0 ]"],
    [new Float64Array(2), "[Float64Array(2): null prototype] [ 0, 0 ]"],
    [new BigInt64Array(2), "[BigInt64Array(2): null prototype] [ 0n, 0n ]"],
    [new BigUint64Array(2), "[BigUint64Array(2): null prototype] [ 0n, 0n ]"],
    [
      new ArrayBuffer(4),
      "[ArrayBuffer: null prototype] {\n  [Uint8Contents]: <00 00 00 00>,\n  byteLength: undefined\n}",
    ],
    [
      new DataView(new ArrayBuffer(4)),
      "[DataView: null prototype] {\n  byteLength: undefined,\n  byteOffset: undefined,\n  buffer: undefined\n}",
    ],
    [
      new SharedArrayBuffer(2),
      "[SharedArrayBuffer: null prototype] {\n  [Uint8Contents]: <00 00>,\n  byteLength: undefined\n}",
    ],
    [new Date("Sun, 14 Feb 2010 11:48:40 GMT"), "[Date: null prototype] 2010-02-14T11:48:40.000Z"],
  ].forEach(([value, expected]) => {
    assert.strictEqual(util.inspect(Object.setPrototypeOf(value, null)), expected);
    value.foo = "bar";
    assert.notStrictEqual(util.inspect(value), expected);
    delete value.foo;
    value[Symbol("foo")] = "yeah";
    assert.notStrictEqual(util.inspect(value), expected);
  });

  // Verify that subclasses with and without prototype produce nice results.
  [
    [RegExp, ["foobar", "g"], "/foobar/g"],
    [WeakSet, [[{}]], "{ <items unknown> }"],
    [WeakMap, [[[{}, {}]]], "{ <items unknown> }"],
    [BigInt64Array, [10], "[\n  0n, 0n, 0n, 0n, 0n,\n  0n, 0n, 0n, 0n, 0n\n]"],
    [Date, ["Sun, 14 Feb 2010 11:48:40 GMT"], "2010-02-14T11:48:40.000Z"],
    [Date, ["invalid_date"], "Invalid Date"],
  ].forEach(([base, input, rawExpected]) => {
    class Foo extends base {}
    const value = new Foo(...input);
    const symbol = value[Symbol.toStringTag];
    const size = base.name.includes("Array") ? `(${input[0]})` : "";
    const expected = `Foo${size} ${symbol ? `[${symbol}] ` : ""}${rawExpected}`;
    const expectedWithoutProto = `[${base.name}${size}: null prototype] ${rawExpected}`;
    assert.strictEqual(util.inspect(value), expected);
    value.foo = "bar";
    assert.notStrictEqual(util.inspect(value), expected);
    delete value.foo;
    assert.strictEqual(util.inspect(Object.setPrototypeOf(value, null)), expectedWithoutProto);
    value.foo = "bar";
    let res = util.inspect(value);
    assert.notStrictEqual(res, expectedWithoutProto);
    assert.match(res, /foo: 'bar'/);
    delete value.foo;
    value[Symbol("foo")] = "yeah";
    res = util.inspect(value);
    assert.notStrictEqual(res, expectedWithoutProto);
    assert.match(res, /\[Symbol\(foo\)]: 'yeah'/);
  });

  assert.strictEqual(inspect(1n), "1n");
  assert.strictEqual(inspect(Object(-1n)), "[BigInt: -1n]");
  assert.strictEqual(inspect(Object(13n)), "[BigInt: 13n]");
  assert.strictEqual(inspect(new BigInt64Array([0n])), "BigInt64Array(1) [ 0n ]");
  assert.strictEqual(inspect(new BigUint64Array([0n])), "BigUint64Array(1) [ 0n ]");

  // Verify non-enumerable keys get escaped.
  {
    const obj = {};
    Object.defineProperty(obj, "Non\nenumerable\tkey", { value: true });
    assert.strictEqual(util.inspect(obj, { showHidden: true }), "{ [Non\\nenumerable\\tkey]: true }");
  }

  // Check for special colors.
  {
    const special = inspect.colors[inspect.styles.special];
    const string = inspect.colors[inspect.styles.string];

    assert.strictEqual(
      inspect(new WeakSet(), { colors: true }),
      `WeakSet { \u001b[${special[0]}m<items unknown>\u001b[${special[1]}m }`,
    );
    assert.strictEqual(
      inspect(new WeakMap(), { colors: true }),
      `WeakMap { \u001b[${special[0]}m<items unknown>\u001b[${special[1]}m }`,
    );
    assert.strictEqual(
      inspect(new Promise(() => {}), { colors: true }),
      `Promise { \u001b[${special[0]}m<pending>\u001b[${special[1]}m }`,
    );

    const rejection = Promise.reject("Oh no!");
    assert.strictEqual(
      inspect(rejection, { colors: true }),
      `Promise { \u001b[${special[0]}m<rejected>\u001b[${special[1]}m ` +
        `\u001b[${string[0]}m'Oh no!'\u001b[${string[1]}m }`,
    );
    rejection.catch(() => {});

    // Verify that aliases do not show up as key while checking `inspect.colors`.
    const colors = Object.keys(inspect.colors);
    const aliases = Object.getOwnPropertyNames(inspect.colors).filter(c => !colors.includes(c));
    assert(!colors.includes("grey"), colors);
    assert(colors.includes("gray"), colors);
    // Verify that all aliases are correctly mapped.
    for (const alias of aliases) {
      assert(Array.isArray(inspect.colors[alias]));
    }
    // Check consistent naming.
    ["black", "red", "green", "yellow", "blue", "magenta", "cyan", "white"].forEach((color, i) => {
      assert.deepStrictEqual(inspect.colors[color], [30 + i, 39]);
      assert.deepStrictEqual(inspect.colors[`${color}Bright`], [90 + i, 39]);
      const bgColor = `bg${color[0].toUpperCase()}${color.slice(1)}`;
      assert.deepStrictEqual(inspect.colors[bgColor], [40 + i, 49]);
      assert.deepStrictEqual(inspect.colors[`${bgColor}Bright`], [100 + i, 49]);
    });

    // Unknown colors are handled gracefully:
    const stringStyle = inspect.styles.string;
    inspect.styles.string = "UNKNOWN";
    assert.strictEqual(inspect("foobar", { colors: true }), "'foobar'");
    inspect.styles.string = stringStyle;
  }

  assert.strictEqual(inspect([1, 3, 2], { sorted: true }), inspect([1, 3, 2]));
  assert.strictEqual(inspect({ c: 3, a: 1, b: 2 }, { sorted: true }), "{ a: 1, b: 2, c: 3 }");
  assert.strictEqual(
    inspect(
      { a200: 4, a100: 1, a102: 3, a101: 2 },
      {
        sorted(a, b) {
          return b.localeCompare(a);
        },
      },
    ),
    "{ a200: 4, a102: 3, a101: 2, a100: 1 }",
  );

  // Non-indices array properties are sorted as well.
  {
    const arr = [3, 2, 1];
    arr.b = 2;
    arr.c = 3;
    arr.a = 1;
    arr[Symbol("b")] = true;
    arr[Symbol("a")] = false;
    assert.strictEqual(
      inspect(arr, { sorted: true }),
      "[ 3, 2, 1, [Symbol(a)]: false, [Symbol(b)]: true, a: 1, b: 2, c: 3 ]",
    );
  }

  // Manipulate the prototype in weird ways.
  {
    let obj = { a: true };
    let value = (function () {
      return function () {};
    })();
    Object.setPrototypeOf(value, null);
    Object.setPrototypeOf(obj, value);
    assert.strictEqual(util.inspect(obj), "Object <[Function (null prototype) (anonymous)]> { a: true }");
    assert.strictEqual(
      util.inspect(obj, { colors: true }),
      "Object <\u001b[36m[Function (null prototype) (anonymous)]\u001b[39m> " + "{ a: \u001b[33mtrue\u001b[39m }",
    );

    obj = { a: true };
    value = [];
    Object.setPrototypeOf(value, null);
    Object.setPrototypeOf(obj, value);
    assert.strictEqual(util.inspect(obj), "Object <[Array(0): null prototype] []> { a: true }");

    function StorageObject() {}
    StorageObject.prototype = { __proto__: null };
    assert.strictEqual(
      util.inspect(new StorageObject()),
      // TODO: null prototypes
      // 'StorageObject <[Object: null prototype] {}> {}'
      "Object <[Object: null prototype] {}> {}",
    );

    obj = [1, 2, 3];
    Object.setPrototypeOf(obj, Number.prototype);
    assert.strictEqual(inspect(obj), "Number { '0': 1, '1': 2, '2': 3 }");

    Object.setPrototypeOf(obj, { __proto__: null });
    assert.strictEqual(inspect(obj), "Array <[Object: null prototype] {}> { '0': 1, '1': 2, '2': 3 }");

    StorageObject.prototype = { __proto__: null };
    Object.setPrototypeOf(StorageObject.prototype, { __proto__: null });
    Object.setPrototypeOf(Object.getPrototypeOf(StorageObject.prototype), { __proto__: null });
    assert.strictEqual(
      util.inspect(new StorageObject()),
      // TODO: null prototypes
      // 'StorageObject <Object <Object <[Object: null prototype] {}>>> {}'
      "Object <Object <Object <[Object: null prototype] {}>>> {}",
    );
    assert.strictEqual(
      util.inspect(new StorageObject(), { depth: 1 }),
      // TODO: null prototypes
      // 'StorageObject <Object <Object <Complex prototype>>> {}'
      "Object <Object <Object <Complex prototype>>> {}",
    );
  }

  // Check that the fallback always works.
  {
    const obj = new Set([1, 2]);
    const iterator = obj[Symbol.iterator];
    Object.setPrototypeOf(obj, null);
    Object.defineProperty(obj, Symbol.iterator, {
      value: iterator,
      configurable: true,
    });
    assert.strictEqual(util.inspect(obj), "[Set(2): null prototype] { 1, 2 }");
    Object.defineProperty(obj, Symbol.iterator, {
      value: true,
      configurable: true,
    });
    Object.defineProperty(obj, "size", {
      value: NaN,
      configurable: true,
      enumerable: true,
    });
    assert.strictEqual(util.inspect(obj), "[Set(2): null prototype] { 1, 2, size: NaN }");
  }

  // Check the getter option.
  {
    let foo = 1;
    const get = {
      get foo() {
        return foo;
      },
    };
    const getset = {
      get foo() {
        return foo;
      },
      set foo(val) {
        foo = val;
      },
      get inc() {
        return ++foo;
      },
    };
    const thrower = {
      get foo() {
        throw new Error("Oops");
      },
    };
    assert.strictEqual(
      inspect(get, { getters: true, colors: true }),
      "{ foo: \u001b[36m[Getter:\u001b[39m " + "\u001b[33m1\u001b[39m\u001b[36m]\u001b[39m }",
    );
    assert.strictEqual(inspect(thrower, { getters: true }), "{ foo: [Getter: <Inspection threw (Oops)>] }");
    assert.strictEqual(inspect(getset, { getters: true }), "{ foo: [Getter/Setter: 1], inc: [Getter: 2] }");
    assert.strictEqual(inspect(getset, { getters: "get" }), "{ foo: [Getter/Setter], inc: [Getter: 3] }");
    assert.strictEqual(inspect(getset, { getters: "set" }), "{ foo: [Getter/Setter: 3], inc: [Getter] }");
    getset.foo = new Set([[{ a: true }, 2, {}], "foobar", { x: 1 }]);
    assert.strictEqual(
      inspect(getset, { getters: true }),
      "{\n  foo: [Getter/Setter] Set(3) { [ [Object], 2, {} ], " + "'foobar', { x: 1 } },\n  inc: [Getter: NaN]\n}",
    );
  }

  // Check compact number mode.
  {
    let obj = {
      a: {
        b: {
          x: 5,
          c: {
            x: "10000000000000000 00000000000000000 ".repeat(1e1),
            d: 2,
            e: 3,
          },
        },
      },
      b: [1, 2, [1, 2, { a: 1, b: 2, c: 3 }]],
      c: ["foo", 4, 444444],
      d: Array.from({ length: 101 }).map((e, i) => {
        return i % 2 === 0 ? i * i : i;
      }),
      e: Array(6).fill("foobar"),
      f: Array(9).fill("foobar"),
      g: Array(21).fill("foobar baz"),
      h: [100].concat(Array.from({ length: 9 }).map((e, n) => n)),
      long: Array(9).fill("This text is too long for grouping!"),
    };

    let out = util.inspect(obj, { compact: 3, depth: 10, breakLength: 60 });
    let expected = [
      "{",
      "  a: {",
      "    b: {",
      "      x: 5,",
      "      c: {",
      "        x: '10000000000000000 00000000000000000 10000000000000000 " +
        "00000000000000000 10000000000000000 00000000000000000 " +
        "10000000000000000 00000000000000000 10000000000000000 " +
        "00000000000000000 10000000000000000 00000000000000000 " +
        "10000000000000000 00000000000000000 10000000000000000 " +
        "00000000000000000 10000000000000000 00000000000000000 " +
        "10000000000000000 00000000000000000 ',",
      "        d: 2,",
      "        e: 3",
      "      }",
      "    }",
      "  },",
      "  b: [ 1, 2, [ 1, 2, { a: 1, b: 2, c: 3 } ] ],",
      "  c: [ 'foo', 4, 444444 ],",
      "  d: [",
      "       0,    1,    4,    3,   16,    5,   36,    7,   64,",
      "       9,  100,   11,  144,   13,  196,   15,  256,   17,",
      "     324,   19,  400,   21,  484,   23,  576,   25,  676,",
      "      27,  784,   29,  900,   31, 1024,   33, 1156,   35,",
      "    1296,   37, 1444,   39, 1600,   41, 1764,   43, 1936,",
      "      45, 2116,   47, 2304,   49, 2500,   51, 2704,   53,",
      "    2916,   55, 3136,   57, 3364,   59, 3600,   61, 3844,",
      "      63, 4096,   65, 4356,   67, 4624,   69, 4900,   71,",
      "    5184,   73, 5476,   75, 5776,   77, 6084,   79, 6400,",
      "      81, 6724,   83, 7056,   85, 7396,   87, 7744,   89,",
      "    8100,   91, 8464,   93, 8836,   95, 9216,   97, 9604,",
      "      99,",
      "    ... 1 more item",
      "  ],",
      "  e: [",
      "    'foobar',",
      "    'foobar',",
      "    'foobar',",
      "    'foobar',",
      "    'foobar',",
      "    'foobar'",
      "  ],",
      "  f: [",
      "    'foobar', 'foobar',",
      "    'foobar', 'foobar',",
      "    'foobar', 'foobar',",
      "    'foobar', 'foobar',",
      "    'foobar'",
      "  ],",
      "  g: [",
      "    'foobar baz', 'foobar baz',",
      "    'foobar baz', 'foobar baz',",
      "    'foobar baz', 'foobar baz',",
      "    'foobar baz', 'foobar baz',",
      "    'foobar baz', 'foobar baz',",
      "    'foobar baz', 'foobar baz',",
      "    'foobar baz', 'foobar baz',",
      "    'foobar baz', 'foobar baz',",
      "    'foobar baz', 'foobar baz',",
      "    'foobar baz', 'foobar baz',",
      "    'foobar baz'",
      "  ],",
      "  h: [",
      "    100, 0, 1, 2, 3,",
      "      4, 5, 6, 7, 8",
      "  ],",
      "  long: [",
      "    'This text is too long for grouping!',",
      "    'This text is too long for grouping!',",
      "    'This text is too long for grouping!',",
      "    'This text is too long for grouping!',",
      "    'This text is too long for grouping!',",
      "    'This text is too long for grouping!',",
      "    'This text is too long for grouping!',",
      "    'This text is too long for grouping!',",
      "    'This text is too long for grouping!'",
      "  ]",
      "}",
    ].join("\n");

    assert.strictEqual(out, expected);

    obj = [1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 123456789];

    out = util.inspect(obj, { compact: 3 });

    expected = [
      "[",
      "  1, 1,         1, 1,",
      "  1, 1,         1, 1,",
      "  1, 1,         1, 1,",
      "  1, 1,         1, 1,",
      "  1, 1,         1, 1,",
      "  1, 1,         1, 1,",
      "  1, 1, 123456789",
      "]",
    ].join("\n");

    assert.strictEqual(out, expected);

    // Unicode support. あ has a length of one and a width of two.
    obj = ["123", "123", "123", "123", "あああ", "123", "123", "123", "123", "あああ"];

    out = util.inspect(obj, { compact: 3 });

    expected = [
      "[",
      "  '123',    '123',",
      "  '123',    '123',",
      "  'あああ', '123',",
      "  '123',    '123',",
      "  '123',    'あああ'",
      "]",
    ].join("\n");

    assert.strictEqual(out, expected);

    // Array grouping should prevent lining up outer elements on a single line.
    obj = [[[1, 2, 3, 4, 5, 6, 7, 8, 9]]];

    out = util.inspect(obj, { compact: 3 });

    expected = ["[", "  [", "    [", "      1, 2, 3, 4, 5,", "      6, 7, 8, 9", "    ]", "  ]", "]"].join("\n");

    assert.strictEqual(out, expected);

    // Verify that array grouping and line consolidation does not happen together.
    obj = {
      a: {
        b: {
          x: 5,
          c: {
            d: 2,
            e: 3,
          },
        },
      },
      b: Array.from({ length: 9 }).map((e, n) => {
        return n % 2 === 0 ? "foobar" : "baz";
      }),
    };

    out = util.inspect(obj, { compact: 1, breakLength: Infinity, colors: true });

    expected = [
      "{",
      "  a: {",
      "    b: { x: \u001b[33m5\u001b[39m, c: \u001b[36m[Object]\u001b[39m }",
      "  },",
      "  b: [",
      "    \u001b[32m'foobar'\u001b[39m, \u001b[32m'baz'\u001b[39m,",
      "    \u001b[32m'foobar'\u001b[39m, \u001b[32m'baz'\u001b[39m,",
      "    \u001b[32m'foobar'\u001b[39m, \u001b[32m'baz'\u001b[39m,",
      "    \u001b[32m'foobar'\u001b[39m, \u001b[32m'baz'\u001b[39m,",
      "    \u001b[32m'foobar'\u001b[39m",
      "  ]",
      "}",
    ].join("\n");

    assert.strictEqual(out, expected);

    obj = Array.from({ length: 60 }).map((e, i) => i);
    out = util.inspect(obj, { compact: 1, breakLength: Infinity, colors: true });

    expected = [
      "[",
      "   \u001b[33m0\u001b[39m,  \u001b[33m1\u001b[39m,  \u001b[33m2\u001b[39m,  \u001b[33m3\u001b[39m,",
      "   \u001b[33m4\u001b[39m,  \u001b[33m5\u001b[39m,  \u001b[33m6\u001b[39m,  \u001b[33m7\u001b[39m,",
      "   \u001b[33m8\u001b[39m,  \u001b[33m9\u001b[39m, \u001b[33m10\u001b[39m, \u001b[33m11\u001b[39m,",
      "  \u001b[33m12\u001b[39m, \u001b[33m13\u001b[39m, \u001b[33m14\u001b[39m, \u001b[33m15\u001b[39m,",
      "  \u001b[33m16\u001b[39m, \u001b[33m17\u001b[39m, \u001b[33m18\u001b[39m, \u001b[33m19\u001b[39m,",
      "  \u001b[33m20\u001b[39m, \u001b[33m21\u001b[39m, \u001b[33m22\u001b[39m, \u001b[33m23\u001b[39m,",
      "  \u001b[33m24\u001b[39m, \u001b[33m25\u001b[39m, \u001b[33m26\u001b[39m, \u001b[33m27\u001b[39m,",
      "  \u001b[33m28\u001b[39m, \u001b[33m29\u001b[39m, \u001b[33m30\u001b[39m, \u001b[33m31\u001b[39m,",
      "  \u001b[33m32\u001b[39m, \u001b[33m33\u001b[39m, \u001b[33m34\u001b[39m, \u001b[33m35\u001b[39m,",
      "  \u001b[33m36\u001b[39m, \u001b[33m37\u001b[39m, \u001b[33m38\u001b[39m, \u001b[33m39\u001b[39m,",
      "  \u001b[33m40\u001b[39m, \u001b[33m41\u001b[39m, \u001b[33m42\u001b[39m, \u001b[33m43\u001b[39m,",
      "  \u001b[33m44\u001b[39m, \u001b[33m45\u001b[39m, \u001b[33m46\u001b[39m, \u001b[33m47\u001b[39m,",
      "  \u001b[33m48\u001b[39m, \u001b[33m49\u001b[39m, \u001b[33m50\u001b[39m, \u001b[33m51\u001b[39m,",
      "  \u001b[33m52\u001b[39m, \u001b[33m53\u001b[39m, \u001b[33m54\u001b[39m, \u001b[33m55\u001b[39m,",
      "  \u001b[33m56\u001b[39m, \u001b[33m57\u001b[39m, \u001b[33m58\u001b[39m, \u001b[33m59\u001b[39m",
      "]",
    ].join("\n");

    assert.strictEqual(out, expected);

    out = util.inspect([1, 2, 3, 4], { compact: 1, colors: true });
    expected = "[ \u001b[33m1\u001b[39m, \u001b[33m2\u001b[39m, " + "\u001b[33m3\u001b[39m, \u001b[33m4\u001b[39m ]";

    assert.strictEqual(out, expected);

    obj = [
      "Object",
      "Function",
      "Array",
      "Number",
      "parseFloat",
      "parseInt",
      "Infinity",
      "NaN",
      "undefined",
      "Boolean",
      "String",
      "Symbol",
      "Date",
      "Promise",
      "RegExp",
      "Error",
      "EvalError",
      "RangeError",
      "ReferenceError",
      "SyntaxError",
      "TypeError",
      "URIError",
      "JSON",
      "Math",
      "console",
      "Intl",
      "ArrayBuffer",
      "Uint8Array",
      "Int8Array",
      "Uint16Array",
      "Int16Array",
      "Uint32Array",
      "Int32Array",
      "Float32Array",
      "Float64Array",
      "Uint8ClampedArray",
      "BigUint64Array",
      "BigInt64Array",
      "DataView",
      "Map",
      "BigInt",
      "Set",
      "WeakMap",
      "WeakSet",
      "Proxy",
      "Reflect",
      "decodeURI",
      "decodeURIComponent",
      "encodeURI",
      "encodeURIComponent",
      "escape",
      "unescape",
      "eval",
      "isFinite",
      "isNaN",
      "SharedArrayBuffer",
      "Atomics",
      "globalThis",
      "WebAssembly",
      "global",
      "process",
      "Buffer",
      "URL",
      "URLSearchParams",
      "TextEncoder",
      "TextDecoder",
      "clearInterval",
      "clearTimeout",
      "setInterval",
      "setTimeout",
      "queueMicrotask",
      "clearImmediate",
      "setImmediate",
      "module",
      "require",
      "assert",
      "async_hooks",
      "buffer",
      "child_process",
      "cluster",
      "crypto",
      "dgram",
      "dns",
      "domain",
      "events",
      "fs",
      "http",
      "http2",
      "https",
      "inspector",
      "net",
      "os",
      "path",
      "perf_hooks",
      "punycode",
      "querystring",
      "readline",
      "repl",
      "stream",
      "string_decoder",
      "tls",
      "trace_events",
      "tty",
      "url",
      "v8",
      "vm",
      "worker_threads",
      "zlib",
      "_",
      "_error",
      "util",
    ];

    out = util.inspect(obj, { compact: 3, breakLength: 80, maxArrayLength: 250 });
    expected = [
      "[",
      "  'Object',          'Function',           'Array',",
      "  'Number',          'parseFloat',         'parseInt',",
      "  'Infinity',        'NaN',                'undefined',",
      "  'Boolean',         'String',             'Symbol',",
      "  'Date',            'Promise',            'RegExp',",
      "  'Error',           'EvalError',          'RangeError',",
      "  'ReferenceError',  'SyntaxError',        'TypeError',",
      "  'URIError',        'JSON',               'Math',",
      "  'console',         'Intl',               'ArrayBuffer',",
      "  'Uint8Array',      'Int8Array',          'Uint16Array',",
      "  'Int16Array',      'Uint32Array',        'Int32Array',",
      "  'Float32Array',    'Float64Array',       'Uint8ClampedArray',",
      "  'BigUint64Array',  'BigInt64Array',      'DataView',",
      "  'Map',             'BigInt',             'Set',",
      "  'WeakMap',         'WeakSet',            'Proxy',",
      "  'Reflect',         'decodeURI',          'decodeURIComponent',",
      "  'encodeURI',       'encodeURIComponent', 'escape',",
      "  'unescape',        'eval',               'isFinite',",
      "  'isNaN',           'SharedArrayBuffer',  'Atomics',",
      "  'globalThis',      'WebAssembly',        'global',",
      "  'process',         'Buffer',             'URL',",
      "  'URLSearchParams', 'TextEncoder',        'TextDecoder',",
      "  'clearInterval',   'clearTimeout',       'setInterval',",
      "  'setTimeout',      'queueMicrotask',     'clearImmediate',",
      "  'setImmediate',    'module',             'require',",
      "  'assert',          'async_hooks',        'buffer',",
      "  'child_process',   'cluster',            'crypto',",
      "  'dgram',           'dns',                'domain',",
      "  'events',          'fs',                 'http',",
      "  'http2',           'https',              'inspector',",
      "  'net',             'os',                 'path',",
      "  'perf_hooks',      'punycode',           'querystring',",
      "  'readline',        'repl',               'stream',",
      "  'string_decoder',  'tls',                'trace_events',",
      "  'tty',             'url',                'v8',",
      "  'vm',              'worker_threads',     'zlib',",
      "  '_',               '_error',             'util'",
      "]",
    ].join("\n");

    assert.strictEqual(out, expected);
  }

  {
    // TODO: don't care if invalid node internals get highlighted wrong
    // See: loaders.js if you want to fix

    const originalCWD = process.cwd();

    process.cwd = () =>
      isWindows
        ? "C:\\workspace\\node-test-binary-windows js-suites-%percent-encoded\\node"
        : "/home/user directory/repository%encoded/node";

    // Use a fake stack to verify the expected colored outcome.
    const stack = [
      "Error: CWD is grayed out, even cwd that are percent encoded!",
      "    at A.<anonymous> (/test/node_modules/foo/node_modules/bar/baz.js:2:7)",
      "    at Module._compile (node:internal/modules/cjs/loader:827:30)",
      "    at Fancy (node:vm:697:32)",
      // This file is not an actual Node.js core file.
      // '    at tryModuleLoad (node:internal/modules/cjs/foo:629:12)',
      "    at Function.Module._load (node:internal/modules/cjs/loader:621:3)",
      // This file is not an actual Node.js core file.
      // '    at Module.require [as weird/name] (node:internal/aaaaa/loader:735:19)',
      "    at require (node:internal/modules/helpers:14:16)",
      "    at Array.forEach (<anonymous>)",
      `    at ${process.cwd()}/test/parallel/test-util-inspect.js:2760:12`,
      `    at Object.<anonymous> (${process.cwd()}/node_modules/hyper_module/folder/file.js:2753:10)`,
      "    at /test/test-util-inspect.js:2239:9",
      "    at getActual (node:assert:592:5)",
    ];
    const err = new Error("CWD is grayed out, even cwd that are percent encoded!");
    err.stack = stack.join("\n");
    if (isWindows) {
      err.stack = stack.map(frame => (frame.includes("node:") ? frame : frame.replace(/\//g, "\\"))).join("\n");
    }
    const escapedCWD = util.inspect(process.cwd()).slice(1, -1);
    util
      .inspect(err, { colors: true })
      .split("\n")
      .forEach((line, i) => {
        line = line.replace(/ \{$/, "");
        if (i >= stack.length) return; //! workaround to ignore the extra error props at the end
        let expected = stack[i]
          .replace(/node_modules\/([^/]+)/gi, (_, m) => {
            return `node_modules/\u001b[4m${m}\u001b[24m`;
          })
          .replace(new RegExp(`(\\(?${escapedCWD}(\\\\|/))`, "gi"), (_, m) => {
            return `\x1B[90m${m}\x1B[39m`;
          });
        if (expected.includes(process.cwd()) && expected.endsWith(")")) {
          expected = `${expected.slice(0, -1)}\x1B[90m)\x1B[39m`;
        }
        if (line.includes("node:")) {
          if (!line.includes("foo") && !line.includes("aaa")) {
            expected = `\u001b[90m${expected}\u001b[39m`;
          }
        } else if (isWindows) {
          expected = expected.replace(/\//g, "\\");
        }
        assert.strictEqual(line, expected);
      });

    // Check ESM
    //const encodedCwd = url.pathToFileURL(process.cwd());
    const sl = isWindows ? "\\" : "/";

    // Use a fake stack to verify the expected colored outcome.
    //? Something goes wrong with these file URLs but Bun doesn't use those in errors anyway so it's fine (for now at least)
    err.stack =
      "Error: ESM and CJS mixed are both grayed out!\n" +
      //?`    at ${encodedCwd}/test/parallel/test-esm.mjs:2760:12\n` +
      //?`    at Object.<anonymous> (${encodedCwd}/node_modules/esm_module/folder/file.js:2753:10)\n` +
      `    at ${process.cwd()}${sl}test${sl}parallel${sl}test-cjs.js:2760:12\n` +
      `    at Object.<anonymous> (${process.cwd()}${sl}node_modules${sl}cjs_module${sl}folder${sl}file.js:2753:10)`;

    let actual = util.inspect(err, { colors: true });
    let expected =
      "Error: ESM and CJS mixed are both grayed out!\n" +
      //?`    at \x1B[90m${encodedCwd}/\x1B[39mtest/parallel/test-esm.mjs:2760:12\n` +
      //?`    at Object.<anonymous> \x1B[90m(${encodedCwd}/\x1B[39mnode_modules/\x1B[4mesm_module\x1B[24m/folder/file.js:2753:10\x1B[90m)\x1B[39m\n` +
      `    at \x1B[90m${process.cwd()}${sl}\x1B[39mtest${sl}parallel${sl}test-cjs.js:2760:12\n` +
      `    at Object.<anonymous> \x1B[90m(${process.cwd()}${sl}\x1B[39mnode_modules${sl}\x1B[4mcjs_module\x1B[24m${sl}folder${sl}file.js:2753:10\x1B[90m)\x1B[39m`;

    assert.strictEqual(actual.split(" {\n")[0], expected);

    // ESM without need for encoding
    process.cwd = () =>
      isWindows ? "C:\\workspace\\node-test-binary-windows-js-suites\\node" : "/home/user/repository/node";
    let expectedCwd = process.cwd();
    if (isWindows) {
      expectedCwd = `/${expectedCwd.replace(/\\/g, "/")}`;
    }
    // Use a fake stack to verify the expected colored outcome.
    err.stack = "Error: ESM without need for encoding!\n" + `    at file://${expectedCwd}/file.js:15:15`;

    actual = util.inspect(err, { colors: true });
    expected = "Error: ESM without need for encoding!\n" + `    at \x1B[90mfile://${expectedCwd}/\x1B[39mfile.js:15:15`;
    assert.strictEqual(actual.split(" {\n")[0], expected);

    process.cwd = originalCWD;
  }

  // This starts to work in node 15
  {
    // Cross platform checks.
    const err = new Error("foo");
    util
      .inspect(err, { colors: true })
      .split("\n")
      .forEach((line, i) => {
        assert(i < 5 || line.startsWith("\u001b[90m"), i + " " + line);
      });
  }

  {
    // Tracing class respects inspect depth.
    try {
      const trace = require("trace_events").createTracing({ categories: ["fo"] });
      const actualDepth0 = util.inspect({ trace }, { depth: 0 });
      assert.strictEqual(actualDepth0, "{ trace: [Tracing] }");
      //! bun's tracing_events implementation is buggy/incomplete (?)
      //const actualDepth1 = util.inspect({ trace }, { depth: 1 });
      //assert.strictEqual(
      //  actualDepth1,
      //  "{ trace: Tracing { enabled: false, categories: 'fo' } }"
      //);
    } catch (err) {
      if (err.code !== "ERR_TRACE_EVENTS_UNAVAILABLE") throw err;
    }
  }

  // Inspect prototype properties.
  {
    function _defineProperty(obj, key, value) {
      if (key in obj) {
        Object.defineProperty(obj, key, {
          value: value,
          enumerable: true,
          configurable: true,
          writable: true,
        });
      } else {
        obj[key] = value;
      }
      return obj;
    }

    class Foo extends Map {
      constructor(...args) {
        super(...args);
        _defineProperty(this, "prop", false);
        _defineProperty(this, "prop2", true);
      }
      get abc() {
        return true;
      }
      get def() {
        return false;
      }
      set def(v) {}
      get xyz() {
        return "Should be ignored";
      }
      func(a) {}
      [util.inspect.custom]() {
        return this;
      }
    }

    class Bar extends Foo {
      constructor(...args) {
        super(...args);
        _defineProperty(this, "prop", true);
        _defineProperty(this, "abc", true);
      }

      get xyz() {
        return "YES!";
      }
      [util.inspect.custom]() {
        return this;
      }
    }

    const bar = new Bar();

    assert.strictEqual(inspect(bar), "Bar(0) [Map] { prop: true, prop2: true, abc: true }");
    assert.strictEqual(
      inspect(bar, { showHidden: true, getters: true, colors: false }),
      "Bar(0) [Map] {\n" +
        "  prop: true,\n" +
        "  prop2: true,\n" +
        "  abc: true,\n" +
        "  [xyz]: [Getter: 'YES!'],\n" +
        "  [def]: [Getter/Setter: false]\n" +
        "}",
    );
    assert.strictEqual(
      inspect(bar, { showHidden: true, getters: false, colors: true }),
      "Bar(0) [Map] {\n" +
        "  prop: \x1B[33mtrue\x1B[39m,\n" +
        "  prop2: \x1B[33mtrue\x1B[39m,\n" +
        "  abc: \x1B[33mtrue\x1B[39m,\n" +
        "  \x1B[2m[xyz]: \x1B[36m[Getter]\x1B[39m\x1B[22m,\n" +
        "  \x1B[2m[def]: \x1B[36m[Getter/Setter]\x1B[39m\x1B[22m\n" +
        "}",
    );

    const obj = { __proto__: { abc: true, def: 5, toString() {} } };
    assert.strictEqual(
      inspect(obj, { showHidden: true, colors: true }),
      "{ \x1B[2mabc: \x1B[33mtrue\x1B[39m\x1B[22m, " + "\x1B[2mdef: \x1B[33m5\x1B[39m\x1B[22m }",
    );

    assert.strictEqual(
      inspect(Object.getPrototypeOf(bar), { showHidden: true, getters: true }),
      "<ref *1> Foo [Map] {\n" +
        "    [constructor]: [class Bar extends Foo] {\n" +
        `      [prototype]: [Circular *1],\n      [name]: 'Bar',\n` +
        "      [length]: 0,\n" +
        "      [Symbol(Symbol.species)]: [Getter: <Inspection threw " +
        "(Symbol.prototype.toString requires that |this| be a symbol or a symbol object)>]\n" +
        "    },\n" +
        "    [xyz]: [Getter: 'YES!'],\n" +
        "    [Symbol(nodejs.util.inspect.custom)]: " +
        "[Function: [nodejs.util.inspect.custom]] {\n" +
        "      [length]: 0,\n" +
        "      [name]: '[nodejs.util.inspect.custom]'\n" +
        "    },\n" +
        "    [abc]: [Getter: true],\n" +
        "    [def]: [Getter/Setter: false]\n" +
        "  }",
    );

    assert.strictEqual(inspect(Object.getPrototypeOf(bar)), "Foo [Map] {}");

    assert.strictEqual(inspect(Object.getPrototypeOf(new Foo())), "Map {}");
  }

  // Check that prototypes with a null prototype are inspectable.
  // Regression test for https://github.com/nodejs/node/issues/35730
  {
    function Func() {}
    Func.prototype = null;
    const object = {};
    object.constructor = Func;

    assert.strictEqual(util.inspect(object), "{ constructor: [Function: Func] }");
  }

  // Test changing util.inspect.colors colors and aliases.
  {
    const colors = util.inspect.colors;

    const originalValue = colors.gray;

    // "grey" is reference-equal alias of "gray".
    assert.strictEqual(colors.grey, colors.gray);

    // Assigninging one should assign the other. This tests that the alias setter
    // function keeps things reference-equal.
    colors.gray = [0, 0];
    assert.deepStrictEqual(colors.gray, [0, 0]);
    assert.strictEqual(colors.grey, colors.gray);

    colors.grey = [1, 1];
    assert.deepStrictEqual(colors.grey, [1, 1]);
    assert.strictEqual(colors.grey, colors.gray);

    // Restore original value to avoid side effects in other tests.
    colors.gray = originalValue;
    assert.deepStrictEqual(colors.gray, originalValue);
    assert.strictEqual(colors.grey, colors.gray);
  }

  // https://github.com/nodejs/node/issues/31889
  //{ //! how to get the undetectable object in JSC?
  //  const undetectable = vm.runInThisContext('%GetUndetectable()');
  //  assert.strictEqual(inspect(undetectable), '{}');
  //}

  // Truncate output for Primitives with 1 character left
  {
    assert.strictEqual(util.inspect("bl", { maxStringLength: 1 }), "'b'... 1 more character");
  }

  {
    const x = "a".repeat(1e6);
    assert(util.inspect(x).endsWith("... 990000 more characters"));
    assert.strictEqual(util.inspect(x, { maxStringLength: 4 }), "'aaaa'... 999996 more characters");
    assert.match(util.inspect(x, { maxStringLength: null }), /a'$/);
  }

  {
    // Verify that util.inspect() invokes custom inspect functions on objects
    // from other vm.Contexts but does not pass data from its own Context to that
    // function.
    const target = vm.runInNewContext(
      /*js*/ `
    ({
      [Symbol.for('nodejs.util.inspect.custom')](depth, ctx) {
        this.depth = depth;
        this.ctx = ctx;
        try {
          this.stylized = ctx.stylize('🐈');
        } catch (e) {
          this.stylizeException = e;
        }
        return this.stylized;
      }
    })
  `,
      { __proto__: null },
    );
    assert.strictEqual(target.ctx, undefined);

    {
      // Subtest 1: Just try to inspect the object with default options.
      assert.strictEqual(util.inspect(target), "🐈");
      assert.strictEqual(typeof target.ctx, "object");
      const objectGraph = fullObjectGraph(target);
      assert(!objectGraph.has(Object));
      assert(!objectGraph.has(Function));
    }

    if (false) {
      //! SKIP TEST: non-standard api
      // Subtest 2: Use a stylize function that returns a non-primitive.
      const output = util.inspect(target, {
        stylize: mustCall(str => {
          return {};
        }),
      });
      assert.strictEqual(output, "[object Object]");
      assert.strictEqual(typeof target.ctx, "object");
      const objectGraph = fullObjectGraph(target);
      assert(!objectGraph.has(Object));
      assert(!objectGraph.has(Function));
    }

    if (false) {
      //! SKIP TEST: non-standard api
      // Subtest 3: Use a stylize function that throws an exception.
      const output = util.inspect(target, {
        stylize: mustCall(str => {
          throw new Error("oops");
        }),
      });
      assert.strictEqual(output, "🐈");
      assert.strictEqual(typeof target.ctx, "object");
      const objectGraph = fullObjectGraph(target);
      assert(!objectGraph.has(Object));
      assert(!objectGraph.has(Function));
    }

    function fullObjectGraph(value) {
      const graph = new Set([value]);

      for (const entry of graph) {
        if ((typeof entry !== "object" && typeof entry !== "function") || entry === null) {
          continue;
        }

        graph.add(Object.getPrototypeOf(entry));
        const descriptors = Object.values(Object.getOwnPropertyDescriptors(entry));
        for (const descriptor of descriptors) {
          graph.add(descriptor.value);
          graph.add(descriptor.set);
          graph.add(descriptor.get);
        }
      }

      return graph;
    }

    // Consistency check.
    assert(fullObjectGraph(global).has(Function.prototype));
  }

  {
    // Confirm that own constructor value displays correctly.

    function Fhqwhgads() {}

    const sterrance = new Fhqwhgads();
    sterrance.constructor = Fhqwhgads;

    assert.strictEqual(
      util.inspect(sterrance, { showHidden: true }),
      "Fhqwhgads {\n" +
        "  constructor: <ref *1> [Function: Fhqwhgads] {\n" +
        "    [length]: 0,\n" +
        "    [prototype]: { [constructor]: [Circular *1] },\n" +
        "    [name]: 'Fhqwhgads'\n" +
        "  }\n" +
        "}",
    );
  }

  {
    // Confirm null prototype of generator prototype displays as expected.

    function getProtoOfProto() {
      return Object.getPrototypeOf(Object.getPrototypeOf(function* () {}));
    }

    function* generator() {}

    const generatorPrototype = Object.getPrototypeOf(generator);
    const originalProtoOfProto = Object.getPrototypeOf(generatorPrototype);
    assert.strictEqual(getProtoOfProto(), originalProtoOfProto);
    Object.setPrototypeOf(generatorPrototype, null);
    assert.notStrictEqual(getProtoOfProto, originalProtoOfProto);

    // This is the actual test. The other assertions in this block are about
    // making sure the test is set up correctly and isn't polluting other tests.
    assert.strictEqual(
      util.inspect(generator, { showHidden: true }),
      "[GeneratorFunction: generator] {\n" +
        "  [length]: 0,\n" +
        "  [name]: 'generator',\n" +
        "  [prototype]: Object [Generator] { [Symbol(Symbol.toStringTag)]: 'Generator' },\n" +
        "  [Symbol(Symbol.toStringTag)]: 'GeneratorFunction'\n" +
        "}",
    );

    // Reset so we don't pollute other tests
    Object.setPrototypeOf(generatorPrototype, originalProtoOfProto);
    assert.strictEqual(getProtoOfProto(), originalProtoOfProto);
  }

  {
    // Test for when breakLength results in a single column.
    const obj = Array(9).fill("fhqwhgadshgnsdhjsdbkhsdabkfabkveybvf");
    assert.strictEqual(
      util.inspect(obj, { breakLength: 256 }),
      "[\n" +
        "  'fhqwhgadshgnsdhjsdbkhsdabkfabkveybvf',\n" +
        "  'fhqwhgadshgnsdhjsdbkhsdabkfabkveybvf',\n" +
        "  'fhqwhgadshgnsdhjsdbkhsdabkfabkveybvf',\n" +
        "  'fhqwhgadshgnsdhjsdbkhsdabkfabkveybvf',\n" +
        "  'fhqwhgadshgnsdhjsdbkhsdabkfabkveybvf',\n" +
        "  'fhqwhgadshgnsdhjsdbkhsdabkfabkveybvf',\n" +
        "  'fhqwhgadshgnsdhjsdbkhsdabkfabkveybvf',\n" +
        "  'fhqwhgadshgnsdhjsdbkhsdabkfabkveybvf',\n" +
        "  'fhqwhgadshgnsdhjsdbkhsdabkfabkveybvf'\n" +
        "]",
    );
  }

  {
    assert.strictEqual(util.inspect({ ["__proto__"]: { a: 1 } }), "{ ['__proto__']: { a: 1 } }");
  }

  {
    const { numericSeparator } = util.inspect.defaultOptions;
    util.inspect.defaultOptions.numericSeparator = true;

    assert.strictEqual(util.inspect(1234567891234567891234), "1.234567891234568e+21");
    assert.strictEqual(util.inspect(123456789.12345678), "123_456_789.123_456_78");

    assert.strictEqual(util.inspect(10_000_000), "10_000_000");
    assert.strictEqual(util.inspect(1_000_000), "1_000_000");
    assert.strictEqual(util.inspect(100_000), "100_000");
    assert.strictEqual(util.inspect(99_999.9), "99_999.9");
    assert.strictEqual(util.inspect(9_999), "9_999");
    assert.strictEqual(util.inspect(999), "999");
    assert.strictEqual(util.inspect(NaN), "NaN");
    assert.strictEqual(util.inspect(Infinity), "Infinity");
    assert.strictEqual(util.inspect(-Infinity), "-Infinity");

    assert.strictEqual(util.inspect(new Float64Array([100_000_000])), "Float64Array(1) [ 100_000_000 ]");
    assert.strictEqual(util.inspect(new BigInt64Array([9_100_000_100n])), "BigInt64Array(1) [ 9_100_000_100n ]");

    assert.strictEqual(util.inspect(123456789), "123_456_789");
    assert.strictEqual(util.inspect(123456789n), "123_456_789n");

    util.inspect.defaultOptions.numericSeparator = numericSeparator;

    assert.strictEqual(util.inspect(123456789.12345678, { numericSeparator: true }), "123_456_789.123_456_78");

    assert.strictEqual(util.inspect(-123456789.12345678, { numericSeparator: true }), "-123_456_789.123_456_78");
  }

  // Regression test for https://github.com/nodejs/node/issues/41244
  {
    assert.strictEqual(
      util.inspect({
        get [Symbol.iterator]() {
          throw new Error();
        },
      }),
      "{ [Symbol(Symbol.iterator)]: [Getter] }",
    );
  }
});

// Utility functions
function runCallChecks(exitCode) {
  if (exitCode !== 0) return;

  const failed = mustCallChecks.filter(function (context) {
    if ("minimum" in context) {
      context.messageSegment = `at least ${context.minimum}`;
      return context.actual < context.minimum;
    }
    context.messageSegment = `exactly ${context.exact}`;
    return context.actual !== context.exact;
  });

  failed.forEach(function (context) {
    console.log(
      "Mismatched %s function calls. Expected %s, actual %d.",
      context.name,
      context.messageSegment,
      context.actual,
    );
    console.log(context.stack.split("\n").slice(2).join("\n"));
  });

  if (failed.length) process.exit(1);
}

function mustCall(fn, criteria = 1) {
  if (process._exiting) throw new Error("Cannot use mustCall() in process exit handler");
  if (typeof fn === "number") {
    criteria = fn;
    fn = noop;
  } else if (fn === undefined) fn = noop;

  const field = "exact";
  if (typeof criteria !== "number") throw new TypeError(`Invalid ${field} value: ${criteria}`);

  const context = {
    [field]: criteria,
    actual: 0,
    stack: util.inspect(new Error()),
    name: fn.name || "<anonymous>",
  };

  // Add the exit listener only once to avoid listener leak warnings
  if (mustCallChecks.length === 0) process.on("exit", runCallChecks);
  mustCallChecks.push(context);

  const _return = function () {
    context.actual++;
    return fn.apply(this, arguments);
  };
  // Function instances have own properties that may be relevant.
  // Let's replicate those properties to the returned function.
  // Refs: https://tc39.es/ecma262/#sec-function-instances
  Object.defineProperties(_return, {
    name: {
      value: fn.name,
      writable: false,
      enumerable: false,
      configurable: true,
    },
    length: {
      value: fn.length,
      writable: false,
      enumerable: false,
      configurable: true,
    },
  });
  return _return;
}
